Radiographic image capturing apparatus, radiographic image capturing system, control method of radiographic image capturing apparatus, and control program of radiographic image capturing apparatus

ABSTRACT

Disclosed is a technique capable of enhancing usability of a radiographic image capturing apparatus, system, control method of the radiographic image capturing apparatus and a non-transitory computer readable recording medium recorded with a control program, for a user. A radiographic image capturing apparatus includes: an I/F unit and an imaging control unit that function as a communication unit that selectively performs communication with any one of a portable information terminal and a console which are plural control apparatuses that have different image processing capacities with respect to a radiographic image and respectively perform a control relating to capturing of the radiographic image; and an imaging control unit that functions as a selection unit that selects any one of plural imaging modes predetermined with respect to the capturing of the radiographic image according to the image processing capacity of the control apparatus that performs communication with the communication unit.

CROSS-REFERENCE TO RELATED APPLICATIONS

The present application is a continuation of U.S. patent applicationSer. No. 15/016,348, filed Feb. 5, 2016, that claims priority under 35U.S.C. § 119 to Japanese Patent Application No. 2015-024698, filed onFeb. 10, 2015 and Japanese Patent Application No. 2015-209215, filed onOct. 23, 2015. Each of the above applications is hereby expresslyincorporated by reference, in its entirety, into the presentapplication.

BACKGROUND OF THE INVENTION 1. Field of the Invention

The present invention relates to a radiographic image capturingapparatus, a radiographic image capturing system, a control method ofthe radiographic image capturing apparatus, and a non-transitorycomputer readable recording medium recorded with a control program ofthe radiographic image capturing apparatus.

2. Description of the Related Art

In the related art, as a radiographic image capturing apparatus thatimages a photographic subject, a radiographic image capturing apparatusthat performs imaging for medical diagnosis is known. The radiographicimage capturing apparatus is configured so that radiation is emittedfrom an irradiator and a radiation detector detects the radiation passedthrough a photographic subject to image a radiographic image.

As a control apparatus that controls the radiographic image capturingapparatus, plural control apparatuses having different image processingfunctions may be used. For example, JP2013-111402A discloses a medicalimage broadcast system in which a console and a portable device are usedas a control apparatus. Further, JP2013-141484A discloses a radiographicimage capturing system in which a console and a portable terminal areused as a control apparatus.

Further, by limiting an image processing function as necessary, even asingle control apparatus may be used as a control apparatus havingplural image processing functions. For example, JP2012-45179A disclosesa technique in which a console that limits a display function accordingto an imaging location where a radiographic image capturing apparatus isdisposed is used as a radiographic image capturing control apparatus.

SUMMARY OF THE INVENTION

In a radiographic image capturing apparatus, there is a case where animaging mode depending on each image processing function should beselected corresponding to plural control apparatuses having differentimage processing functions or a control apparatus having plural imageprocessing functions. Thus, a user may feel inconvenience in use.

An object of the invention is to provide a technique capable ofenhancing usability of a radiographic image capturing apparatus for auser.

In order to solve the problem, according to an aspect of the invention,there is provided a radiographic image capturing apparatus including: acommunication unit that selectively performs communication with any oneof a plurality of control apparatuses that has different imageprocessing capacities with respect to a radiographic image andrespectively performs a control relating to capturing of theradiographic image; and a selection unit that selects any one of aplurality of imaging modes predetermined with respect to the capturingof the radiographic image according to the image processing capacity ofthe control apparatus that performs communication with the communicationunit in a case of capturing the radiographic image.

Further, in the radiographic image capturing apparatus according to thisaspect of the invention, the plurality of imaging modes may include aplurality of imaging modes that varies according to the image processingcapacities, and the selection unit may exclusively select any one of theplurality of imaging modes for each of the control apparatuses,according to the image processing capacities of the plurality of controlapparatuses.

Further, in the radiographic image capturing apparatus according to thisaspect of the invention, the plurality of control apparatuses mayinclude a control apparatus having an image processing capacity, amongthe plurality of control apparatuses, lower than those of the othercontrol apparatuses, the plurality of imaging modes may include a memorymode which is an imaging mode in which image data of a plurality ofradiographic images obtained by imaging is stored in a storage unitintegrated with the radiographic image capturing apparatus, and theselection unit may select the memory mode in a case where thecommunication unit performs communication with the control apparatushaving an image processing capacity, among the plurality of controlapparatuses, lower than those of the other control apparatuses.

Further, in the radiographic image capturing apparatus according to thisaspect of the invention, the storage unit may be detachably andattachably mounted to the radiographic image capturing apparatus.

Further, in the radiographic image capturing apparatus according to thisaspect of the invention, a control apparatus having an image processingcapacity, among the plurality of control apparatuses, higher than thoseof the other control apparatuses may have a predetermined imageprocessing function of generating a radiographic image for imagereading, and a control apparatus having an image processing capacitylower than those of the other control apparatuses may not have thepredetermined image processing function.

Further, in the radiographic image capturing apparatus according to thisaspect of the invention, a control apparatus having an image processingcapacity, among the plurality of control apparatuses, higher than thoseof the other control apparatuses may include a display unit capable ofdisplaying a radiographic image for image reading, and a controlapparatus having an image processing capacity lower than those of theother control apparatuses may include a display unit incapable ofdisplaying the radiographic image for image reading.

Further, in the radiographic image capturing apparatus according to thisaspect of the invention, the image data of the plurality of radiographicimages may be image data of radiographic images in a plurality of units,in which image data of radiographic images obtained by an imaging groupcollected based on a predetermined reference may be one unit.

Further, in the radiographic image capturing apparatus according to thisaspect of the invention, each of the plurality of control apparatusesmay include a display unit having a display capacity depending on theimage processing capacity, and the selection unit may select any one ofthe plurality of predetermined imaging modes according to the displaycapacity of the display unit.

Further, in the radiographic image capturing apparatus according to thisaspect of the invention, the display capacity may include the size of adisplay region of the display unit, the plurality of imaging modes mayinclude a memory mode which is an imaging mode in which image data of aplurality of radiographic images obtained by imaging is stored in astorage unit integrated with the radiographic image capturing apparatus,and the selection unit may select the memory mode in a case where thecommunication unit performs communication with the control apparatushaving the display unit in which the size of the display region issmaller than a predetermined size.

Further, in the radiographic image capturing apparatus according to thisaspect of the invention, the selection unit may further select any oneof the plurality of imaging modes predetermined with respect to thecapturing of the radiographic image, according to a communicationcapacity through which the communication unit performs communicationwith the control apparatus.

Further, in the radiographic image capturing apparatus according to thisaspect of the invention, the plurality of imaging modes may include avideo mode which is an imaging mode in which a video image is captured,and the radiographic image capturing apparatus may further include apermission unit that permits, in a case where the selection unit selectsthe video mode, a wearable device to execute at least a part of thecontrol relating to the capturing of the radiographic image, performedby the control apparatus that performs communication with thecommunication unit.

Further, in the radiographic image capturing apparatus according to thisaspect of the invention, the plurality of control apparatuses mayinclude a control apparatus having an image processing capacity, amongthe plurality of control apparatuses, higher than those of the othercontrol apparatuses, the plurality of imaging modes may include a normalmode which is an imaging mode in which image data of a plurality ofradiographic images obtained by imaging is sequentially transmitted, andthe selection unit may select the normal mode in a case where thecommunication unit performs communication with the control apparatushaving an image processing capacity, among the plurality of controlapparatuses, higher than those of the other control apparatuses.

Further, in the radiographic image capturing apparatus according to thisaspect of the invention, the plurality of imaging modes may include anormal mode in which image data of a plurality of radiographic imagesobtained by imaging is sequentially transmitted, and a memory mode inwhich the image data of the plurality of radiographic images is storedin a storage unit integrated with the radiographic image capturingapparatus, and the selection unit may select the memory mode in a casewhere the communication unit performs communication with a controlapparatus having an image processing capacity, among the plurality ofcontrol apparatuses, lower than those of the other control apparatuses.

Further, the radiographic image capturing apparatus according to thisaspect of the invention may further include: a reception unit thatreceives a setting of the imaging mode, and the selection unit mayselect any one of the plurality of predetermined imaging modes based onthe setting received by the reception unit.

According to another aspect of the invention, there is provided aradiographic image capturing apparatus including: a communication unitthat selectively performs communication with any one of a plurality ofcontrol apparatuses that respectively performs a control relating tocapturing of a radiographic image; an evaluation unit that evaluates atleast one selected from a group including an image processing capacitywith respect to the radiographic image, of the control apparatus thatperforms communication with the communication unit and a communicationcapacity through which the communication unit performs communicationwith the control apparatus, in a case of capturing the radiographicimage; and a selection unit that selects any one of a plurality ofimaging modes predetermined with respect to the capturing of theradiographic image based on an evaluation result of the evaluation unit.

Further, in the radiographic image capturing apparatus according to thisaspect of the invention, the plurality of imaging modes may include avideo mode which is an imaging mode in which a video image is captured,and the radiographic image capturing apparatus may further include: apermission unit that permits, in a case where the selection unit selectsthe video mode, a wearable device to execute at least a part of thecontrol relating to the capturing of the radiographic image, performedby the control apparatus that performs communication with thecommunication unit.

Further, in the radiographic image capturing apparatus according to thisaspect of the invention, in a case where the permission unit givespermission to the wearable device, the communication unit may transmitthe radiographic image to the control apparatus that communicates withthe communication unit, among the control apparatus that communicateswith the communication unit and the wearable device.

According to still another aspect of the invention, there is provided aradiographic image capturing apparatus including: a communication unitthat performs communication with a control apparatus that has aplurality of image processing functions having different imageprocessing capacities with respect to a radiographic image, in which anyone of the functions is selectively executed, and performs a controlrelating to capturing of the radiographic image; and a selection unitthat selects any one of a plurality of imaging modes predetermined withrespect to the capturing of the radiographic image according to thefunction executed by the control apparatus, among the plurality offunctions, in a case of capturing the radiographic image.

According to still another aspect of the invention, there is provided aradiographic image capturing system including: the radiographic imagingapparatus according to the aspect of the invention, and a plurality ofcontrol apparatuses that has different image processing capacities withrespect to a radiographic image obtained by imaging in the radiographicimaging apparatus and respectively performs a control relating tocapturing of the radiographic image.

According to still another aspect of the invention, there is provided aradiographic image capturing system including: the radiographic imagingapparatus according to the aspect of the invention; and a controlapparatus that has a first and a second image processing functionshaving different image processing capacities with respect to aradiographic image obtained by imaging in the radiographic imagingapparatus, in which any one of the functions is selectively executed,and performs a control relating to capturing of the radiographic image.

According to still another aspect of the invention, there is provided acontrol method of a radiographic image capturing apparatus, including:selectively performing communication with any one of a plurality ofcontrol apparatuses that has different image processing capacities withrespect to a radiographic image and respectively performs a controlrelating to capturing of the radiographic image; and selecting any oneof a plurality of imaging modes predetermined with respect to thecapturing of the radiographic image according to the image processingcapacity of the control apparatus with which the communication isperformed in a case of capturing the radiographic image.

According to still another aspect of the invention, there is provided anon-transitory computer readable recording medium recorded with acontrol program of the radiographic image capturing apparatus, causing acomputer to execute a process including: selectively performingcommunication with any one of a plurality of control apparatuses thathas different image processing capacities with respect to a radiographicimage and respectively performs a control relating to capturing of theradiographic image; and selecting any one of a plurality of imagingmodes predetermined with respect to the capturing of the radiographicimage according to the image processing capacity of the controlapparatus with which the communication is performed in a case ofcapturing the radiographic image.

According to the invention, it is possible to obtain an effect ofenhancing usability of a radiographic image capturing apparatus for auser.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is a schematic configuration diagram illustrating an example of aradiographic image capturing system of an embodiment.

FIG. 2 is a block diagram illustrating an example of a schematicconfiguration of a radiographic image capturing apparatus, a portableinformation terminal, and a console of an embodiment.

FIG. 3 is a flowchart illustrating an example of the flow of an imagingprocess executed by an imaging control unit of a radiographic imagecapturing apparatus of a first embodiment.

FIG. 4 is a diagram illustrating a concept of a memory mode process inthe radiographic image capturing apparatus of the first embodiment.

FIG. 5 is a flowchart illustrating an example of the flow of the memorymode process executed by the imaging control unit of the radiographicimage capturing apparatus of the first embodiment.

FIG. 6 is a diagram illustrating a concept of a normal mode process inthe radiographic image capturing apparatus of the first embodiment.

FIG. 7 is a flowchart illustrating an example of the flow of the normalmode process executed by the imaging control unit of the radiographicimage capturing apparatus of the first embodiment.

FIG. 8 is a flowchart illustrating an example of the flow of a terminalprocess executed by a terminal control unit of the portable informationterminal of the first embodiment.

FIG. 9 is a schematic diagram illustrating a specific example of a statewhere an imaging list is displayed on a display of the portableinformation terminal.

FIG. 10 is a schematic diagram illustrating a specific example of astate where information indicating that a mode is changed to a memorymode and information indicating the number of photographable images aredisplayed on the display of the portable information terminal.

FIG. 11 is a schematic diagram illustrating a specific example of astate where a preview image is displayed on the display of the portableinformation terminal.

FIG. 12 is a schematic diagram illustrating a specific example of astate where an imaging list including information indicating thatimaging is finished is displayed on the display of the portableinformation terminal.

FIG. 13 is a flowchart illustrating an example of the flow of a consoleprocess executed by a console control unit of the first embodiment.

FIG. 14 is a schematic diagram illustrating a specific example of astate where a radiographic image for image reading is displayed on adisplay of a console.

FIG. 15 is a flowchart illustrating an example of the flow of a terminalprocess executed by a terminal control unit of a portable informationterminal of a second embodiment.

FIG. 16 is a flowchart illustrating an example of the flow of a memorymode process executed by an imaging control unit of a radiographic imagecapturing apparatus of the second embodiment.

FIG. 17 is a flowchart illustrating an example of the flow of a memorymode process executed by an imaging control unit of a radiographic imagecapturing apparatus of a third embodiment.

FIG. 18 is a diagram illustrating a concept of the memory mode processin the radiographic image capturing apparatus of the third embodiment.

FIG. 19 is a flowchart illustrating an example of the flow of a terminalprocess executed by a terminal control unit of a portable informationterminal of the third embodiment.

FIG. 20 is a flowchart illustrating an example of the flow of an imagingprocess executed by an imaging control unit of a radiographic imagecapturing apparatus of a fourth embodiment.

FIG. 21 is a flowchart illustrating an example of the flow of a powersaving mode process executed by the imaging control unit of theradiographic image capturing apparatus of the fourth embodiment.

FIG. 22 is a flowchart illustrating an example of the flow of a terminalprocess executed by a terminal control unit of a portable informationterminal of the fourth embodiment.

FIG. 23 is a schematic diagram illustrating a specific example of astate where a display for causing a user to perform an operation ofinstructing termination of positioning is performed on a display of aportable information terminal.

FIG. 24 is a flowchart illustrating an example of the flow of ahigh-speed mode process executed by an imaging control unit of theradiographic image capturing apparatus of the fourth embodiment.

FIG. 25 is a flowchart illustrating an example of the flow of a consoleprocess executed by a console control unit of the fourth embodiment.

FIG. 26 is a schematic configuration diagram illustrating an example ofa radiographic image capturing system that includes a radiographic imagecapturing apparatus and a console.

FIG. 27 is a flowchart illustrating an example of the flow of an imagingprocess executed by an imaging control unit of a radiographic imagecapturing apparatus of a fifth embodiment.

FIG. 28 is a diagram illustrating a specific example of an evaluationvalue of an image processing capacity.

FIG. 29 is a diagram illustrating a correspondence relationship betweena control apparatus and an applicable communication method.

FIG. 30 is a schematic configuration diagram illustrating an example ofa radiographic image capturing system of a sixth embodiment.

FIG. 31 is a block diagram illustrating an example of a schematicconfiguration of a radiographic image capturing apparatus, a portableinformation terminal, and a console of the sixth embodiment.

FIG. 32 is a flowchart illustrating an example of the flow of an imagingprocess executed by an imaging control unit of the radiographic imagecapturing apparatus of the sixth embodiment.

FIG. 33 is a flowchart illustrating an example of the flow of a videomode process executed by the imaging control unit of the radiographicimage capturing apparatus of the sixth embodiment.

FIG. 34 is a flowchart illustrating an example of the flow of a wearableterminal process executed by a wearable control unit of a wearableterminal of the sixth embodiment.

FIG. 35 is a flowchart illustrating an example of the flow of a terminalprocess executed by a terminal control unit of a portable informationterminal of the sixth embodiment.

DESCRIPTION OF THE PREFERRED EMBODIMENTS

Hereinafter, examples of embodiments according to the invention will bedescribed with reference to the accompanying drawings. In the figures,the same reference numerals are given to components having the samefunctions, and repetitive description thereof will not be made.

First Embodiment

First, a schematic configuration of a radiographic image capturingsystem of a first embodiment will be described. FIG. 1 is a schematicconfiguration diagram illustrating an example of a radiographic imagecapturing system of this embodiment.

A radiographic image capturing system 10 includes an irradiator 12, aradiographic image capturing apparatus 14, a portable informationterminal 16, and a console 18.

The irradiator 12 includes a radiation source 13. The irradiator 12 hasa function of irradiating a photographic subject W with radiation R (forexample, X-ray) from the radiation source 13. As a specific example ofthe irradiator 12, a mobile car may be used, for example. A method forinstructing the irradiator 12 to execute the irradiation with theradiation R is not particularly limited, but in this embodiment, anirradiation execution instruction is performed from the portableinformation terminal 16 or the console 18.

The radiographic image capturing apparatus 14 includes a radiationdetector 20 that detects radiation R that is emitted from the irradiator12 and passes through the photographic subject W. The radiographic imagecapturing apparatus 14 has a function of capturing a radiographic imageof the photographic subject W using the radiation detector 20. In thisembodiment, an electronic cassette is used as the radiographic imagecapturing apparatus 14.

The portable information terminal 16 of this embodiment may be driven bya built-in battery, specifically, a tablet terminal, a smart phone whichis a so-called a personal digital assistant (PDA), or the like may beused. The portable information terminal 16 has a function of controllingthe capturing of the radiographic image using the radiographic imagecapturing apparatus 14 based on order information input through anexternal system such as a radiology information system (RIS) or theconsole 18. Thus, the portable information terminal 16 receives theorder information from the external system or the console 18. The orderinformation in this embodiment corresponds to one example of an imaginggroup collected on the basis of a predetermined standard of theinvention. Further, image data of a radiographic image obtained byimaging corresponding to one piece of order information corresponds toone unit.

The console 18 has a function of controlling the entirety of theradiographic image capturing system 10 or a function of controlling thecapturing of the radiographic image using the radiographic imagecapturing apparatus 14, based on the order information input through theexternal system such as a radiology information system (RIS), forexample. Thus, the console 18 receives the order information from theexternal system.

In the radiographic image capturing system 10 of this embodiment, in acase where the capturing of the radiographic image is performed at apredetermined imaging location such as a hospital ward, a hospital room,or an operating room, the irradiator 12, the radiographic imagecapturing apparatus 14, and the portable information terminal 16 aredisposed at the imaging location to perform the capturing of theradiographic image. In this case, the console 18 performs the imaging ina state of being disposed at a location (for example, in a clinic or thelike of the department of radiology) different from the imaging locationwhere the irradiator 12, the radiographic image capturing apparatus 14,and the portable information terminal 16 are disposed.

In the portable information terminal 16 and the console 18 of thisembodiment, image processing functions are different from each other. Inthe radiographic image capturing system 10 of this embodiment, in a casewhere a user performs image reading of a radiographic image (including amedical examination and a diagnosis), the console 18, an image reader(not shown) such as a viewer which is separately provided, or the likeis used. Thus, the image processing function of the console 18 is forgenerating a high-quality radiographic image capable of enduring imagereading of a user, and has a high image processing capacity. On theother hand, since a display capacity using a display 36 is notnecessarily high in the portable information terminal 16, the portableinformation terminal 16 is not suitable for display of a radiographicimage for image reading. Thus, the image processing function of theportable information terminal 16 has a lower image processing capacitythan that of the console 18. It is sufficient if the portableinformation terminal 16 of this embodiment has an image processingfunction of displaying a preview image (which will be described later indetail) generated by the radiographic image capturing apparatus 14 onthe display 36. The preview image refers to at least one of a lowquality image compared with the radiographic image for image reading oran image with a small amount of data.

Further, in the portable information terminal 16 and the console 18 ofthis embodiment, control functions for performing an imaging controlusing the radiographic image capturing apparatus 14 are different fromeach other. The portable information terminal 16 has only a part of thefunction of the console 18 for controlling the capturing of theradiographic image. Each of the portable information terminal 16 and theconsole 18 is an example of a control apparatus of the invention. Inthis embodiment, the portable information terminal 16 and the console 18are referred to as a “control apparatus” without distinction.

Next, respective functions of the radiographic image capturing apparatus14, the portable information terminal 16, and the console 18 will bedescribed in detail. FIG. 2 is a block diagram illustrating an exampleof schematic configurations of the radiographic image capturingapparatus 14, the portable information terminal 16, and the console 18of the radiographic image capturing system 10.

The radiographic image capturing apparatus 14 of this embodimentincludes a radiation detector 20, an imaging control unit 22, anoperation detection unit 23, a memory 24, an operating button 25, aninput/output (I/O) unit 26, and an interface (I/F) unit 28. Theradiation detector 20, the imaging control unit 22, the operationdetection unit 23, the memory 24, and the input/output (I/O) unit 26 areconnected to each other through a bus 29 such as a system bus or acontrol bus to be able to exchange a variety of information.

The radiographic image capturing apparatus 14 of this embodiment detectsirradiation starting with radiation R using the host apparatus in anasynchronous manner with the irradiator 12 to perform the capturing ofthe radiographic image. In the radiographic image capturing apparatus14, a method of detecting the irradiation starting with the radiation Rusing the host apparatus in an asynchronous manner with the irradiator12 is not particularly limited. For example, the radiographic imagecapturing apparatus 14 may include a detection unit that detects aradiation dose of the irradiated radiation R, and may detect, when theirradiation dose detected by the detection unit exceeds a predeterminedthreshold value as an irradiation start, that the irradiation isstarted. The radiographic image capturing apparatus 14 is not limited tothis embodiment, and may be any apparatus having a function of capturingthe radiographic image depending on the radiation R that passes throughthe photographic subject W.

The radiation detector 20 includes a function of detecting the radiationR that passes through the photographic subject W under the control ofthe imaging control unit 22. The radiation detector 20 of thisembodiment is not particularly limited. For example, the radiationdetector 20 may be a radiation detector of an indirect conversion typethat converts radiation R into light and converts the converted lightinto electric charges, or may be a radiation detector of a directconversion type that directly converts radiation R into electriccharges.

The imaging control unit 22 is an example of a selection unit of theinvention, and has a function of controlling an overall operation of theradiographic image capturing apparatus 14.

The imaging control unit 22 includes a central processing unit (CPU), aread only memory (ROM), and a random access memory (RAM). The ROM storesvarious process programs including an imaging process program (whichwill be described later) executed by the CPU, or the like. The RAM has afunction of temporarily storing a variety of data.

The operating button 25 is connected to the operation detection unit 23,and is provided at a position where there is no obstacle in a case wherea radiographic image is captured, in a housing (not shown) of theradiographic image capturing apparatus 14.

The memory 24 is an example of a storage unit integrated with the hostapparatus of the invention. The memory 24 stores image data of aradiographic image obtained by imaging, or the like. As a specificexample of the memory 24, a solid state drive (SSD) or the like may beused. The memory 24 may be integrated with the radiographic imagecapturing apparatus 14 in a case of performing the capturing of theradiographic image, and for example, may be a memory capable of beingdetachably and attachably mounted from the radiographic image capturingapparatus 14, such as a universal serial bus (USB) memory or a securedigital (SD) memory card (registered trademark).

The I/F unit 28 is connected to the I/O unit 26, and has a function ofperforming communication of a variety of information with the portableinformation terminal 16 or the console 18 through wireless communicationor the like using a radio wave or light. The radiographic imagecapturing apparatus 14 of this embodiment uses short-range wirelesscommunication in a case of performing communication with the portableinformation terminal 16, and uses wireless local area network (LAN)communication in a case of performing communication with the console 18.Specifically, the radiographic image capturing apparatus 14 usesBluetooth (registered trademark) in a case of performing communicationwith the portable information terminal 16, and uses Wireless-Fidelity(Wi-Fi, registered trademark) in a case of performing communication withthe console 18.

The I/F unit 28 and the imaging control unit 22 form an example of acommunication unit of the invention.

The portable information terminal 16 of this embodiment includes aterminal control unit 30, a storage unit 32, a reader 33, a displaydriver 34, a display 36, an operation input detection unit 38, anoperation unit 40, an I/O unit 42, and an I/F unit 44. The terminalcontrol unit 30, the storage unit 32, the reader 33, the display driver34, the operation input detection unit 38, and the I/O unit 42 areconnected to each other through a bus 47 such as a system bus or acontrol bus to be able to exchange a variety of information.

The terminal control unit 30 has a function of controlling an overalloperation of the portable information terminal 16. Further, the terminalcontrol unit 30 has a function of acquiring order information throughthe I/F unit 44 through the console 18 or an external system.

The terminal control unit 30 includes a CPU, a ROM, and a RAM. The ROMstores in advance various process programs including a terminal program(which will be described later) executed by the CPU, or the like. TheRAM has a function of temporarily storing a variety of data.

The reader 33 of this embodiment has a function of reading a character,an image, or the like. Specifically, the reader 33 has a camerafunction, and functions as a barcode reader.

The display 36 of this embodiment is an example of a display unit of theinvention, and has a function of displaying a variety of informationrelating to imaging or a preview image of a radiographic image obtainedby imaging. The display driver 34 has a function of controlling displayof the variety of information on the display 36.

The operation unit 40 is used when a user inputs an instruction relatingto capturing of a radiographic image, a variety of information, or thelike. The operation unit 40 of this embodiment includes a touch panel, atouch pen, plural keys, a mouse, or the like. In this embodiment, thedisplay 36 and the operation unit 40 are integrated to form a touchpanel display. The operation input detection unit 38 has a function ofdetecting an operation state with respect to the operation unit 40.

The I/O unit 42 and the I/F unit 44 have a function for performingcommunication of a variety of information with the radiographic imagecapturing apparatus 14 or the console 18. The portable informationterminal 16 of this embodiment uses short-range wireless communicationin a case of performing communication with the radiographic imagecapturing apparatus 14, and uses wireless LAN communication in a case ofperforming communication with the console 18 through wirelesscommunication using radio waves or light, or the like. Specifically, theportable information terminal 16 of this embodiment uses Bluetooth(registered trademark) in a case of performing communication with theradiographic image capturing apparatus 14, and uses Wi-Fi (registeredtrademark) in a case of performing communication with the console 18.

The storage unit 32 stores the above-mentioned order information or thelike. As a specific example of the storage unit 32, an SSD or the likemay be used. The storage unit 32 may be a memory capable of beingdetachably and attachably mounted to the portable information terminal16, such as a USB memory or an SD memory card.

The console 18 of this embodiment functions as a server computer. Theconsole 18 includes a control unit 50, a storage unit 52, a displaydriver 54, a display 56, an operation input detection unit 58, anoperation unit 60, a reader 61, an I/O unit 62, and an I/F unit 64. Thecontrol unit 50, the storage unit 52, the display driver 54, theoperation input detection unit 58, the reader 61, and the I/O unit 62are connected to each other through a bus 67 such as a system bus or acontrol bus to be able to exchange a variety of information.

The control unit 50 has a function of controlling an overall operationof the console 18, and includes a CPU, a ROM, a RAM, and a hard diskdrive (HDD). The ROM stores in advance various process programs or thelike executed by the CPU. The RAM has a function of temporarily storinga variety of data. The HDD has a function of storing and retaining avariety of data.

The display 56 of this embodiment is an example of a display unit of theinvention, and has a function of displaying a variety of informationrelating to imaging, a radiographic image for image reading, or thelike. The display driver 54 has a function of controlling display of avariety of information on the display 56. The operation unit 60 is usedwhen a user inputs information relating to capturing of a radiographicimage, or the like. The operation unit 60 of this embodiment includes atouch panel, a touch pen, plural keys, a mouse, and the like, forexample. In a case where the operation unit 60 includes the touch panel,the touch panel may be integrated with the display 56. The operationinput detection unit 58 has a function of detecting an operation statewith respect to the operation unit 60.

The reader 61 of the embodiment has a function of reading a character,an image or the like. Specifically, the reader 61 has a camera function,and functions as a barcode reader.

The I/O unit 62 and the I/F unit 64 have a function for performingcommunication of a variety of information with the radiographic imagecapturing apparatus 14 or the portable information terminal 16. Theconsole 18 of this embodiment uses wireless LAN communication in a caseof performing communication with the radiographic image capturingapparatus 14 and the portable information terminal 16 through wirelesscommunication using radio waves or light, or the like. Specifically, theconsole 18 of this embodiment uses Wi-Fi (registered trademark) in acase of performing communication with the radiographic image capturingapparatus 14 and the portable information terminal 16.

The storage unit 52 stores image data of a radiographic image andphotographic subject information in association. As a specific exampleof the storage unit 52, an HDD, an SSD, or the like may be used.

Next, an operation of the radiographic image capturing system 10 of thisembodiment in a case where a radiographic image is captured will bedescribed.

First, an operation of the radiographic image capturing apparatus 14will be described. FIG. 3 shows a flowchart illustrating an example ofthe flow of an imaging process executed by the imaging control unit 22of the radiographic image capturing apparatus 14 of this embodiment. Inthe radiographic image capturing apparatus 14 of this embodiment, theimaging control unit 22 executes an imaging process program stored inthe ROM of the host apparatus to execute the imaging process.

The imaging process is executed when power is supplied using a powerswitch (not shown) of the radiographic image capturing apparatus 14.

In step S100 of FIG. 3, the imaging control unit 22 sets the radiationdetector 20 to a standby state. Here, the “standby state” in thisembodiment refers to a state where the power switch of the radiographicimage capturing apparatus 14 is turned on to wait for an instruction ofcapturing of a radiographic image.

In the next step S102, the imaging control unit 22 determines whichcontrol apparatus of the portable information terminal 16 and theconsole 18 is connected. Here, the “connection” means connection throughcommunication, which may not be direct and physical connection. Thus, inthis embodiment, “connection to the radiographic image capturingapparatus 14” means that communication is performed with theradiographic image capturing apparatus 14.

In the imaging control unit 22 of the radiographic image capturingapparatus 14, in a case where communication is received from theportable information terminal 16 or the console 18, it is determinedthat the control apparatus is connected. In a case where the controlapparatus is not connected, the standby state is continued, and in acase where the control apparatus is connected, the procedure proceeds tostep S104.

In step S104, the imaging control unit 22 prohibits connection of thehost apparatus and a control apparatus different from the connectedcontrol apparatus. The imaging control unit 22 prohibits the connectionwith the different control apparatus by prohibiting communication withthe different control apparatus. For example, in a case where it isdetermined in step S102 that the portable information terminal 16 isconnected, connection with the console 18 is prohibited. Similarly, in acase where it is determined in step S102 that the console 18 isconnected, connection with the portable information terminal 16 isprohibited. As the connection with the different control apparatus isprohibited, the radiographic image capturing apparatus 14 is onlyconnected to a single control apparatus. Thus, in the radiographic imagecapturing apparatus 14, it is possible to prevent non-match fromoccurring with respect to controls performed by the plural controlapparatuses.

In the next step S106, the imaging control unit 22 determines whether ornot the connected control apparatus is the portable information terminal16.

A method of determining whether or not the connected control apparatusin the imaging control unit 22 of this embodiment is the portableinformation terminal 16 is not particularly limited. For example, asdescribed above, since the portable information terminal 16 and theconsole 18 have different communication types, the determination may beperformed by a communication type (Bluetooth (registered trademark) orWi-Fi (registered trademark)) for connection from the control apparatus.Further, for example, identification information indicating which one ofthe portable information terminal 16 and the console 18 is the hostapparatus may be transmitted to the radiographic image capturingapparatus 14 from the control apparatus, and the determination may beperformed based on the identification information.

In the radiographic image capturing apparatus 14 of this embodiment, asan imaging mode of a radiographic image which is executable by the hostapparatus, a memory mode which is an imaging mode in which image data ofplural radiographic images obtained by imaging is stored in the memory24 is provided. Since the portable information terminal 16 has a lowimage processing capacity compared with that of the console 18 and doesnot display a radiographic image for image reading, in a case where theconnected control apparatus is the portable information terminal 16, theradiographic image capturing apparatus 14 selects the memory mode as theimaging mode.

Further, in the radiographic image capturing apparatus 14 of thisembodiment, as the imaging mode, a normal mode which is an imaging modein which image data of a radiographic image obtained by imaging isappropriately transmitted to the control apparatus but the image data ofthe plural radiographic images is not stored in the memory 24 of theradiographic image capturing apparatus 14 is provided. Since the console18 has a high image processing capacity compared with that of theportable information terminal 16 and displays a radiographic image forimage reading, in a case where the connected control apparatus is theconsole 18, the radiographic image capturing apparatus 14 selects thenormal mode as the imaging mode.

In the normal mode, there is a case where image data of a radiographicimage captured whenever capturing one radiographic image is transmittedto the control apparatus and then the next imaging is performed, but ina case where capturing of plural radiographic images is instructed byone piece of order information, it may be convenient to continuouslycapture plural radiographic images instructed by one piece of orderinformation for a user.

That is, the memory mode in the radiographic image capturing apparatus14 of this embodiment is an imaging type capable of continuouslyperforming imaging depending on plural pieces of order information. Inthe case of the memory mode, the image data stored in the memory 24 istransmitted to an external apparatus such as the control apparatus onthe condition that a series of continuous imaging is terminated (forexample, a memory mode process is terminated, which will be describedlater in detail), or on the condition that transmission of the imagedata is instructed from the external apparatus such as the controlapparatus, for example.

On the other hand, in the case of the normal mode, the image data storedin the memory 24 is transmitted to the external apparatus such as thecontrol apparatus on the condition that capturing of one radiographicimage is terminated, or on the condition that imaging depending on onepiece of order information is terminated.

In the radiographic image capturing apparatus 14 of this embodiment, ina case where the connected control apparatus is the portable informationterminal 16, the memory mode is selected as the imaging mode. On theother hand, in a case where the connected control apparatus is theconsole 18, the normal mode is selected as the imaging mode.

Thus, in a case where the determination in step S106 is affirmative, theprocedure proceeds to step S108 in order to perform a process dependingon the memory mode.

In step S108, the imaging control unit 22 performs the memory modeprocess. FIG. 4 is a diagram illustrating a concept of the memory modeprocess in the radiographic image capturing apparatus 14 of thisembodiment. Further, FIG. 5 is a flowchart illustrating an example ofthe flow of the memory mode process executed by the imaging control unit22 of this embodiment.

As shown in FIG. 5, in step S130 of the memory mode process, the imagingcontrol unit 22 transmits information indicating that the mode ischanged to the memory mode and information indicating the number ofphotographable images to the portable information terminal 16. Asdescribed later, the transmitted information is displayed on the display36 of the portable information terminal 16 (see step S204 in FIG. 8). Ina case where the radiographic image capturing apparatus 14 has a displayunit, the information may be displayed on the display unit of theradiographic image capturing apparatus 14.

The imaging control unit 22 determines the number of photographableimages from an empty capacity of the memory 24. A determination methodis not particularly limited, but for example, the number ofphotographable images may be determined based on the size (average size)of image data of a radiographic image with an average size and averageresolution. Further, for example, in a case where order information isobtained, a correspondence relationship between the order informationand the size of the image data of the radiographic image capturedaccording to the order information may be stored in advance, and thenumber of photographable images may be determined based on the size ofthe image data corresponding to the obtained order information.

Information to be transmitted to the portable information terminal 16 isnot limited thereto. For example, instead of the information indicatingthe number of photographable images, or together with the informationindicating the number of photographable images, information indicatingthe empty capacity of the memory 24 may be transmitted to the portableinformation terminal 16.

In the next step S132, the imaging control unit 22 determines whethercapturing of a radiographic image is started. Here, since the portableinformation terminal 16 is connected as the control device, the portableinformation terminal 16 instructs the capturing of the radiographicimage. Specifically, in a case where collation termination information(which will be described later, see step S214 in FIG. 8) is receivedfrom the portable information terminal 16, the imaging control unit 22determines that the capturing of the radiographic image is started.

In a case where the collation termination information is not received, astandby state is continued as it is, and in a case where the collationtermination information is received, the procedure proceeds to stepS134.

In step S134, the imaging control unit 22 performs a control for causingthe radiation detector 20 to enter a ready state which is a state wheredetection of radiation R can be immediately performed. The “ready state”in this embodiment refers to a state where the radiation detector 20 canimmediately perform imaging, and refers to a state where irradiationstarting with the radiation R is waited for. In this way, in the readystate, for example, since the radiation detector 20 performs anoperation of detecting irradiation starting with radiation R, forexample, power consumption increases compared with that in the standbystate.

In this embodiment, in a case where the portable information terminal 16is connected to the radiographic image capturing apparatus 14 as thecontrol apparatus, the portable information terminal 16 instructs theirradiator 12 to perform the capturing of the radiographic image. Thus,in a case where imaging instruction information for a radiographic imagetransmitted from the portable information terminal 16 is received, theirradiator 12 performs irradiation with radiation R.

Under the above-described control of the portable information terminal16 and the imaging control unit 22, the radiation detector 20 detectsthe radiation R that is emitted from the irradiator 12 and passesthrough the photographic subject W, to thereby capture the radiographicimage depending on the photographic subject W.

If the radiographic image is captured by the radiation detector 20, inthe next step S136, the imaging control unit 22 acquires image dataobtained by the capturing of the radiographic image from the radiationdetector 20. In the next step S138, the imaging control unit 22 storesthe acquired image data in the memory 24.

In the next step S140, the imaging control unit 22 generates a previewimage based on the image data (raw data) stored in the memory 24. Thepreview image is an image used when a user determines whether or not thecapturing of the radiographic image relating to the photographic subjectW is appropriately performed or at least re-imaging is necessary. Theimaging control unit 22 of this embodiment performs image processing forgenerating a preview image with respect to raw data of the radiographicimage to generate the preview image. Here, the imaging control unit 22of this embodiment uses image processing for which it does not take arelatively long time, among plural kinds of image processing performedin a case of generating a radiographic image for image reading, as theimage processing for generating the preview image. As a specificexample, the imaging control unit 22 performs offset correction and gaincorrection with respect to the raw data of the radiographic image, butdoes not perform defect pixel correction. A function of the imageprocessing for performing the defective pixel correction corresponds toan example of a predetermined image processing function of generatingthe radiographic image for image reading of the invention.

Further, in the radiographic image capturing apparatus 14 of thisembodiment, as the imaging process for generating the preview image,image processing for thinning the raw data of the radiographic image isalso performed. Thus, the image data of the preview image has a datavolume smaller than that of the raw data. The degree of the thinning maybe determined in advance according to a resolution of the display 36 ofthe portable information terminal 16, a transmission speed of the imagedata, an image quality of a preview image desired by a user, and thelike, or may be instructed by the user from the portable informationterminal 16.

Accordingly, the preview image displayed on the display 36 of theportable information terminal 16 of this embodiment has image qualitylower than that of the radiographic image for image reading displayed onthe display 56 of the console 18.

In the next step S142, the imaging control unit 22 transmits image dataof the generated preview image to the portable information terminal 16.In the portable information terminal 16, the preview image is displayedon the display 36 based on the received image data (see step S218 inFIG. 8). The user refers to and confirms the preview image displayed onthe display 36 of the portable information terminal 16, and gives aninstruction about the necessity of re-imaging to the radiographic imagecapturing apparatus 14 using the operation unit 40 of the portableinformation terminal 16. Specifically, in a case where a messageindicating that the re-imaging is necessary is input to the operationunit 40 by the user, the portable information terminal 16 transmitsre-imaging instruction information to the radiographic image capturingapparatus 14 (see step S222 in FIG. 8). Further, in a case where amessage indicating that the re-imaging is not necessary is input to theoperation unit 40 by the user, the portable information terminal 16transmits imaging completion instruction information to the radiographicimage capturing apparatus 14 (see step S224 in FIG. 8).

In the next step S144, the imaging control unit 22 determines whether ornot the re-imaging instruction information is received from the portableinformation terminal 16 to determine whether to perform the re-imaging.Here, in a case where the determination is affirmative, the procedurereturns to step S134 to repeat capturing of a radiographic image of thephotographic subject W again. In performing the re-imaging, after theuser confirms the preview image, it is preferable that informationindicating that the re-imaging is performed is stored in the memory 24in association with the image data of the radiographic image for whichthe re-imaging is instructed.

On the other hand, in a case where the determination in step S144 isnegative, the imaging control unit 22 considers that the imagingcompletion instruction information is received from the portableinformation terminal 16, and the procedure proceeds to step S146.

In a case where capturing of plural radiographic images is instructed byone piece of order information, for example, in a case where pluralradiographic images are captured with respect to the same photographicsubject W, the processes of steps S134 to 144 are repeatedly performed.

If the capturing of the radiographic images is completed, the portableinformation terminal 16 transmits at least one of the photographicsubject information or the order information to the radiographic imagecapturing apparatus 14 (see step S226 in FIG. 8).

Thus, in step S146, the imaging control unit 22 receives at least one ofthe photographic subject information or the order information from theportable information terminal 16. Further, in the next step S148, theimaging control unit 22 stores the received at least one of thephotographic subject information or the order information in the memory24 in association with the image data of the radiographic image storedby the process of step S138.

In the next step S150, the imaging control unit 22 determines whether ornot the entirety of imaging is terminated. In a case where it isdetermined that the entirety of imaging is not terminated, the procedureproceeds to step S152, and the imaging control unit 22 performs acontrol for bringing the radiation detector 20 into a standby state.Here, although described in detail later, “the entirety of imaging”refers to the entirety of imaging included in an imaging list in theportable information terminal 16.

If the entirety of imaging is terminated, the portable informationterminal 16 transmits termination instruction information (see step S232in FIG. 8). Thus, in a case where the termination instructioninformation is not received in step S150, the imaging control unit 22 ofthe radiographic image capturing apparatus 14 determines that theentirety of imaging is not terminated. On the other hand, in a casewhere the termination instruction information is received, it isdetermined that the entirety of imaging is completed.

In step S150, in a case where it is determined that the entirety ofimaging is terminated, the imaging control unit 22 terminates the memorymode process.

According to the above-described memory mode process, as shown in FIG.4, for example, the image data of the preview image generated from theradiographic image obtained from the imaging is transmitted to theportable information terminal 16 from the radiographic image capturingapparatus 14. Further, at least one of the photographic subjectinformation or the order information is transmitted to the radiographicimage capturing apparatus 14 from the portable information terminal 16.The radiographic image capturing apparatus 14 stores at least one of thereceived photographic subject information or order information in thememory 24 in association with the image data of the radiographic image.

In this way, if the memory mode process is terminated, the procedureproceeds to step S112 of the imaging process (see FIG. 3). If the memorymode process is terminated, the connection (communication) of theradiographic image capturing apparatus 14 and the portable informationterminal 16 is released by the portable information terminal 16 (seestep S234 in FIG. 8).

On the other hand, in a case where the determination in step S106 of theimaging process is negative, it is considered that the console 18 isconnected, and the procedure proceeds to step S110.

In step S110, the imaging control unit 22 performs a normal modeprocess. FIG. 6 is a diagram illustrating a concept of the normal modeprocess in the radiographic image capturing apparatus 14 of thisembodiment. Further, FIG. 7 is a flowchart illustrating an example ofthe flow of the normal mode process executed by the imaging control unit22 of this embodiment.

As shown in FIG. 7, in step S170 of the normal mode process, the imagingcontrol unit 22 determines whether capturing of a radiographic image isstarted. Here, since the console 18 is connected as the controlapparatus, the condole 18 instructs the capturing of the radiographicimage. Specifically, in a case where collation termination information(see step S308 in FIG. 13) (which will be described later) is receivedfrom the console 18, the imaging control unit 22 determines that thecapturing of the radiographic image is started.

In a case where the collation termination information is not received,the standby state is continued as it is, and in a case where thecollation termination information is received, the procedure proceeds tostep S172.

In steps S172 to S176, the same processes as the processes in steps S134to 138 of the memory mode process (see FIG. 5) are performed, so that aradiographic image depending on the photographic subject W is captured,and image data of the radiographic image is stored in the memory 24.

In the next step S178, the imaging control unit 22 transmits the imagedata of the radiographic image to the console 18. The image data of theradiographic image to be transmitted herein may be raw data, or may beimage data after predetermined image processing. In this embodiment, asa specific example, the imaging control unit 22 transmits image data ofa radiographic image for image reading obtained by performing offsetcorrection, gain correction, and defect correction with respect to theraw data to the console 18.

In the console 18, the radiographic image for image reading is displayedon the display 56, based on the image data of the received radiographicimage for image reading (see step S312 in FIG. 13). The user refers toand confirms the radiographic image displayed on the display 56 of theconsole 18, and gives an instruction about the necessity of re-imagingto the radiographic image capturing apparatus 14 using the operationunit 60 of the console 18. Specifically, in a case where a messageindicating that the re-imaging is necessary is input by the user usingthe operation unit 60, the console 18 transmits re-imaging instructioninformation to the radiographic image capturing apparatus 14 (see stepS318 in FIG. 13). Further, in a case where a message indicating that there-imaging is not necessary is input by the user through the operationunit 60, the console 18 transmits imaging completion instructioninformation to the radiographic image capturing apparatus 14 (see stepS320 in FIG. 13).

In the next step S180, the imaging control unit 22 determines whether ornot the re-imaging instruction information is received from the console18 to determine whether to perform the re-imaging. Here, in a case wherethe determination is affirmative, the procedure returns to step S172 torepeat the capturing of the radiographic image of the photographicsubject W again. On the other hand, in a case where the determination instep S180 is negative, the imaging control unit 22 considers that theimaging completion instruction information is received from the console18, and the procedure proceeds to step S182.

In the radiographic image capturing apparatus 14 of the embodiment, in acase where capturing of plural radiographic images is instructed withrespect to one piece of order information, for example, in a case whereplural radiographic images are captured with respect to the samephotographic subject W, the processes of steps S172 to 180 arerepeatedly performed.

If the capturing of the radiographic images is completed, the imagingcontrol unit 22 deletes the image data (raw data) of the radiographicimage stored in the memory 24 in step S182.

In the next step S184, the imaging control unit 22 determines whether ornot the entirety of imaging is terminated. Here, in a case where it isdetermined that the entirety of imaging is not terminated, the procedureproceeds to step S186, and the imaging control unit 22 perform a controlfor bringing the radiation detector 20 into the standby state.

If the entirety of imaging is terminated, the console 18 transmits thetermination instruction information (see step S328 in FIG. 13). Thus, ina case where the termination instruction information is not received instep S184, the imaging control unit 22 of the radiographic imagecapturing apparatus 14 determines that the entirety of imaging is notterminated. On the other hand, in a case where the terminationinstruction information is received, it is determined that the entiretyof imaging is terminated.

In step S184, in a case where it is determined that the entirety ofimaging is terminated, the imaging control unit 22 terminates the normalmode process.

According to the above-described normal mode process, as shown in FIG.6, for example, the image data of the radiographic image for imagereading generated from the radiographic image obtained from the imagingis transmitted to the console 18 from the radiographic image capturingapparatus 14. Further, the console 18 stores the radiographic image forimage reading and at least one of the photographic subject informationor the order information in the storage unit 52 in association.

In this way, if the normal mode process is terminated, the procedureproceeds to step S112 of the imaging process (see FIG. 3). If the normalmode process is terminated, the connection (communication) of theradiographic image capturing apparatus 14 and the console 18 is releasedby the console 18 (see step S330 in FIG. 13).

In step S112, the imaging control unit 22 determines whether or not thepower switch of the radiographic image capturing apparatus 14 is in anoff state. In a case where the power switch is not in the off state, theprocedure proceeds to step S114.

In step S114, the imaging control unit 22 performs a control forbringing the host apparatus into a sleep state. The “sleep state” inthis embodiment represents a state where only the CPU of the imagingcontrol unit 22 is operated, which is a state where power consumption isless than that in the standby state.

In the next step S116, the imaging control unit 22 determines whether ornot the control apparatus is connected, in a similar manner to stepS102. In a case where the control apparatus is not connected, the sleepstate is continued. On the other hand, in a case where the controlapparatus is connected, the procedure proceeds to step S118. In stepS118, the imaging control unit 22 performs a control for causing thehost apparatus return to the standby state from the sleep state, andthen, the procedure returns to step S104 to repeat the imaging process.

On the other hand, in step S112, in a case where the power switch is inthe off state, the imaging control unit 22 terminates the imagingprocess.

In the radiographic image capturing apparatus 14 of this embodiment, theimaging control unit 22 selectively performs communication with any oneof the portable information terminal 16 and the console 18 whichfunction as the control apparatus through the I/F unit 28. Byselectively performing the communication, the radiographic imagecapturing apparatus 14 is connected to the control apparatus. Incapturing the radiographic image, in a case where the connected controlapparatus is the portable information terminal 16, the imaging controlunit 22 selects the memory mode as the imaging mode. Further, incapturing a radiographic image, in a case where the connected controlapparatus is the console 18, the imaging control unit 22 selects thenormal mode as the imaging mode.

In the memory mode, the imaging control unit 22 generates a previewimage and transmits image data thereof to the portable informationterminal 16, and stores image data of radiographic images obtained byimaging corresponding to plural pieces of order information in thememory 24. Further, in the normal mode, the imaging control unit 22generates a radiographic image for image reading and transmits imagedata thereof to the console 18, and does not store the image data of theradiographic images by imaging corresponding to plural pieces of orderinformation in the memory 24.

Thus, in the radiographic image capturing control apparatus 14 of thisembodiment, it is possible to select an imaging mode suitable for theconnected control apparatus.

Next, an operation of the portable information terminal 16 in a casewhere a radiographic image is captured under the control of the portableinformation terminal 16 will be described.

FIG. 8 is a flowchart illustrating an example of the flow of a terminalprocess executed by the terminal control unit 30 of the portableinformation terminal 16 of this embodiment. In the portable informationterminal 16 of this embodiment, the terminal control unit 30 executes aterminal process program stored in the ROM of the host apparatus, tothereby execute the terminal process.

The terminal process is performed in a case where the portableinformation terminal 16 is disposed at a position where the portableinformation terminal 16 can communicate with the radiographic imagecapturing apparatus 14, and in a case where an execution instruction ofthe terminal process is performed by the user through the operation unit40.

In step S200 of FIG. 8, the terminal control unit 30 displays an imaginglist on the display 36. In the portable information terminal 16 of thisembodiment, the imaging list is acquired in advance from an externalsystem such as the console 18 or an RIS, or the like, and is stored inthe storage unit 32, or the like, but a timing when the imaging list isacquired is not limited thereto. In the terminal process, the imaginglist may be acquired from the console 18 or the external systemimmediately before the process of step S200 is executed.

FIG. 9 is a schematic diagram illustrating a specific example of a statewhere the imaging list is displayed on the display 36 of the portableinformation terminal 16. In the specific example shown in FIG. 9, as theimaging list, plural imaging processes individually corresponding toplural pieces of order information are displayed, and in each imagingprocess, a check box 70, subject information, and order information aredisplayed. The check box 70 represents whether imaging is completed, andin a case where the check box 70 is checked, it means that the imagingis completed.

As the imaging list is displayed on the display 36, the user can confirmimaging to be performed from the imaging list.

In the next step S202, the terminal control unit 30 connects the hostapparatus to the radiographic image capturing apparatus 14.Specifically, the terminal control unit 30 performs communication withthe radiographic image capturing apparatus 14, to thereby connect thehost apparatus to the radiographic image capturing apparatus 14. In thisway, as the radiographic image capturing apparatus 14 is connected tothe portable information terminal 16 are connected, it is possible tocontrol the radiographic image capturing apparatus 14 using the portableinformation terminal 16.

Further, as described above, as the portable information terminal 16 isconnected, the radiographic image capturing apparatus 14 performs thememory mode process (see FIG. 5). Further, the radiographic imagecapturing apparatus 14 transmits information indicating that the mode ischanged to the memory mode as described above and information indicatingthe number of photographable images to the portable information terminal16, while the memory mode process is being executed (see step S130 inFIG. 5).

In the next step S204, the terminal control unit 30 receives theinformation indicating that the mode is changed to the memory mode andthe information indicating the number of photographable images, anddisplays the result on the display 36. FIG. 10 is a schematic diagramillustrating a specific example of a state where the informationindicating that the mode is changed to the memory mode and theinformation indicating the number of photographable images are displayedon the display 36 of the portable information terminal 16. In FIG. 10,the state where the information indicating that the mode is changed tothe memory mode and the information indicating the number ofphotographable images together with the imaging list are displayed onthe display is displayed, but the display method is not limited thereto.For example, only the information indicating that the mode is switchedto be changed to the memory mode from the state where the imaging listis displayed on the display 36 (see FIG. 9) and the informationindicating the number of photographable images may be displayed thereon.

The user confirms the information displayed on the display 36. Inperforming imaging depending on the imaging list, in a case where thenumber of photographable images is insufficient, the user changes theradiographic image capturing apparatus 14 to another apparatus, and in acase where the memory 24 of the radiographic image capturing apparatus14 is detachable and attachable, the user changes the radiographic imagecapturing apparatus 14 to another memory 24, to thereby make it possibleto continue the capturing of the radiographic image.

The radiographic image capturing apparatus 14 may select or switch theimaging mode according to the number of photographable images. Forexample, in a case where the order information is obtained, the mode maybe switched from the memory mode to the normal mode, in a case where thenumber of photographable images is smaller than the number ofphotographable images corresponding to one piece of order information,or in a case where the number of photographable images is smaller thanthe number of photographable images of all of radiographic imagesincluded in the imaging list.

However, generally, in a case where the capturing of the radiographicimage is performed, differently from the order information included inthe imaging list, imaging to be additionally performed (hereinafter,referred to as “additional imaging”) may be necessary. In this case, ifthe portable information terminal 16 is not connected to the console 18or the external system, in a state where order information correspondingto the additional imaging is not issued, the capturing of theradiographic image is first performed, and after the console 18 isconnected to the external system after the imaging, association of theorder information and the image data of the radiographic image isperformed.

In a case where such additional imaging is present, the user inputsphotographic subject information and imaging conditions using theoperation unit 40.

Then, in the next step S206, the terminal control unit 30 detectswhether or not the photographic subject information and the imagingconditions are input through the operation unit 40 using the operationinput detection unit 38, to thereby determine whether or not theadditional imaging is present. Here, in a case where the additionalimaging is present, the procedure proceeds to step S212 from step S206,and the terminal control unit 30 receives the photographic subjectinformation and the imaging conditions input through the operation unit40 by the user, and then, the procedure proceeds to step S214.

On the other hand, in a case where there is no additional imaging, theprocedure proceeds to step S208 from step S206.

In step S208, the terminal control unit 30 performs collation of thephotographic subject W. Here, the terminal control unit 30 reads, asphotographic subject information, a photographic subject name disclosedin a name tag of a photographic subject W, a medical record card, or thelike, a bar code, and a two-dimensional code such as a QR code(registered trademark), and the like using the reader 33, and collatesthe read data with the imaging list information, to thereby perform thecollation of the photographic subject W. Further, for example, in a casewhere a photo image including the face of the photographic subject W isincluded in the imaging list information, the terminal control unit 30may take a picture of the face of the photographic subject W using thereader 33, and may perform face recognition or the like using an imageof the photographed face, for example, to thereby perform the collationof the photographic subject W. In this way, the collation method of thephotographic subject W is not particularly limited, and any methodcapable of collating the photographic subject W to be photographed withthe imaging list information may be used. In addition, fingerprintrecognition or the like may be used.

In the next step S210, the terminal control unit 30 determines whetheror not the photographic subject W matches a photographic subject Wincluded in the imaging list information, based on the collation resultin the process of step S208. In this way, by performing the collation ofthe photographic subject W, the portable information terminal 16 of thisembodiment can suppress capturing of a radiographic image of thephotographic subject W which is not scheduled to be imaged.

In a case where the photographic subject W does not match the imaginglist information, the procedure proceeds to step S211, and the terminalcontrol unit 30 displays information indicating the non-match on thedisplay 36. According to the information indicating the non-matchbetween the photographic subject W and the imaging list informationdisplayed on the display 36, the user confirms that the photographicsubject W is not included in the imaging list. Further, the user changesa capturing target of a radiographic image to the photographic subject Wwhich is included in the imaging list and is scheduled to be imaged, andcauses the portable information terminal 16 to perform collation of thechanged photographic subject W. Thus, in the case of the non-match, theprocedure proceeds to step S208, and the terminal control unit 30performs collation of the photographic subject W again.

On the other hand, in a case where the photographic subject W matchesthe imaging list information, the procedure proceeds to step S214. Instep S214, the terminal control unit 30 transmits collation terminationinformation to the radiographic image capturing apparatus 14. In thisembodiment, the collation termination information represents that thecollation of the photographic subject W is terminated, and includesinformation for instructing the radiographic image capturing apparatus14 to capture a radiographic image. Thus, as described above, in a caseof receiving the collation termination information from the portableinformation terminal 16, the radiographic image capturing apparatus 14determines that the capturing of the radiographic imaging is started(see step S132 in FIG. 5).

Further, in step S214, the terminal control unit 30 transmits imaginginstruction information for a radiographic image to the irradiator 12based on order information. A timing when the imaging instructioninformation for the radiographic image is transmitted to the irradiator12 is not limited to this embodiment, and after the collationtermination information is transmitted, and in a case where irradiationstarting with the radiation R is instructed from the user through theoperation unit 40, the terminal control unit 30 may transmit the imaginginstruction information to the irradiator 12.

In the radiographic image capturing apparatus 14, the capturing of theradiographic image is performed through processes of steps S134 to S142of the memory mode process shown in FIG. 5, as described above, andimage data indicating a preview image generated based on theradiographic image obtained by imaging is transmitted to the portableinformation terminal 16.

Thus, in the next step S216, the terminal control unit 30 determineswhether image data of the preview image is received. The procedure waitsuntil the image data is received, and if the image data is received, theprocedure proceeds to step S218.

In step S218, the terminal control unit 30 displays the preview image onthe display 36 using the received image data. FIG. 11 shows a schematicdiagram illustrating a specific example of a state where a preview image72 is displayed on the display 36 of the portable information terminal16.

The user confirms the preview image 72, and determines whether toperform re-imaging. The user instructs the re-imaging in a case where adesired portion is not included in the displayed preview image 72, in acase of camera shaking, picture blur, or the like is generated in animage, or in a case where the radiographic image obtained by imaging isnot appropriate. Further, the radiographic image capturing apparatus 14of this embodiment detects irradiation starting with the radiation Rusing the host apparatus to capture the radiographic image in anasynchronous manner with the irradiator 12. Thus, due to noise such as ashock to the radiographic image capturing apparatus 14, the irradiationstarting with the radiation R may be erroneously detected to capture theradiographic image, and the preview image may be transmitted to theportable information terminal 16. In such a case, the user instructsre-imaging.

Specifically, in the portable information terminal 16 of thisembodiment, in a case where the user instructs the re-imaging, anoperation of checking the check box 74 displayed on the display 36 isperformed, and then, operates an end button 75.

On the other hand, in a case where the imaging is completed withoutperforming the re-imaging, the user performs an operation of checkingthe check box 73 displayed on the display 36, and then, operates the endbutton 75.

The terminal control unit 30 detects these operations using theoperation input detection unit 38. Further, in a case where it isdetected that the instruction operation of performing the re-imaging isperformed by the user, the terminal control unit 30 causes the procedureto proceed to step S222. Further, the terminal control unit 30 transmitsthe re-imaging instruction information to the radiographic imagecapturing apparatus 14, and then, the procedure returns to step S216.

On the other hand, in a case where it is detected that the instructionoperation of completing the imaging is performed by the user, theterminal control unit 30 causes the procedure to proceed to step S224.In step S224, the terminal control unit 30 transmits the imagingcompletion instruction information to the radiographic image capturingapparatus 14, and then, the procedure proceeds to step S226.

In step S226, the terminal control unit 30 transmits at least one of thephotographic subject information or the order information to theradiographic image capturing apparatus 14. Specifically, in a case wherethe order information of the imaged photographic subject W is present,the terminal control unit 30 transmits the order information, and in acase where the order information of the imaged photographic subject W isnot present, for example, in the case of additional imaging, theterminal control unit 30 transmits the photographic subject information.As described above, at least one of the photographic subject informationor the order information transmitted to the radiographic image capturingapparatus 14 is stored in the memory 24 of the radiographic imagecapturing apparatus 14 in association with the image data of theradiographic image (see step S148 in FIG. 5).

In the next step S228, the terminal control unit 30 displays the imaginglist on the display 36 again. Here, the terminal control unit 30displays a state where the check box 70 corresponding to theimaging-completed order information is checked. FIG. 12 is a schematicdiagram illustrating a specific example of a state where an imaging listincluding order information indicating that imaging is completed isdisplayed on the display 36 of the portable information terminal 16. Inthe specific example shown in FIG. 12, the check box 70 corresponding to“photographic subject information: FUJI A-KO, order information: chestportion, etc.” displayed on the top is checked, and represents thatimaging corresponding to the information is completed. The user canconfirm whether order information for which capturing of a radiographicimage is not terminated is present according to whether or not the checkbox 70 is checked.

The capturing of the radiographic image is not limited to the orderdisclosed in the imaging list. The imaging may be performed in the orderof the collation completion in the processes of steps S208 to S210.

In the next step S230, the terminal control unit 30 determines whetheror not the entirety of imaging included in the imaging list isterminated. In a case where it is determined that the entirety ofimaging is not terminated, the procedure returns to step S206, andrepeats the terminal process. On the other hand, in a case where it isdetermined that the entirety of imaging is terminated, the procedureproceeds to step S232.

In step S232, the terminal control unit 30 transmits terminationinstruction information to the radiographic image capturing apparatus14. In the next step S234, the terminal control unit 30 releases theconnection with the radiographic image capturing apparatus 14, and then,terminates the terminal process. Specifically, the terminal control unit30 cuts off (terminates) the communication with the radiographic imagecapturing apparatus 14, to thereby release the connection with theradiographic image capturing apparatus 14.

As described above, in the portable information terminal 16 of thisembodiment, in a case of controlling the radiographic image capturingapparatus 14 in the capturing of the radiographic image, the terminalcontrol unit 30 receives image data of the preview image from theradiographic image capturing apparatus 14 to display the result on thedisplay 36.

The portable information terminal 16 may perform communication withanother control apparatus such as the console 18, or an external systemwhile the capturing of the radiographic image is being performed, butdoes not receive an instruction relating to an imaging controltherefrom. As the portable information terminal 16 communicates withanother control apparatus or the external system in this way, it ispossible to detect a progressing state of imaging from another controlapparatus or the external system.

Next, an operation of the console 18 in a case where a radiographicimage is captured under the control of the console 18 will be described.

FIG. 13 is a flowchart illustrating an example of the flow of a consoleprocess executed by the control unit 50 of the console 18 of thisembodiment. In the console 18 of this embodiment, the control unit 50executes a console processing program stored in a ROM thereof, tothereby execute the console process.

The console process is executed in a case where power is supplied to apower switch (not shown) of the console 18, or in a case where a messagefor performing capturing of a radiographic image is instructed by theoperation unit 60.

In the console 18, in a case where additional imaging which is notincluded in the imaging list is generated, differently from theabove-described portable information terminal 16, it is assumed that theorder information may be acquired from the external system such as RISand imaging (order information) is added to the imaging list.

In step S300 of FIG. 13, the control unit 50 displays the imaging liston the display 56. In the console 18 of this embodiment, the imaginglist is acquired in advance from the external system such as RIS, and isstored in the storage unit 52, or the like, but a timing when theimaging list is acquired is not limited thereto. In the console process,the imaging list may be acquired from the external system immediatelybefore the process of step S300 is executed. Display of the imaging listis the same as in step S200 of the above-described terminal process inthe portable information terminal 16.

In the next step S302, the control unit 50 connects the host apparatusand the radiographic image capturing apparatus 14. Specifically, thecontrol unit 50 performs communication with the radiographic imagecapturing apparatus 14, to thereby connect the host apparatus and theradiographic image capturing apparatus 14. In this way, as theradiographic image capturing apparatus 14 and the console 18 areconnected to each other, it is possible to control the radiographicimage capturing apparatus 14 using the console 18.

Further, as described above, in the radiographic image capturingapparatus 14, due to the connection to the console 18, since the normalmode instead of the memory mode is selected as the imaging mode, thenormal mode process (see FIG. 7) is performed.

In the next step S304, the control unit 50 performs collation of thephotographic subject W. A method of collating the photographic subject Win the console 18 may be the same as in step S208 of the above-describedterminal process in the portable information terminal 16 using thereader 61.

In the next step S306, the control unit 50 determines whether or not thephotographic subject W matches a photographic subject W included in theimaging list information based on the collation result in the process ofstep S304. In a case where the photographic subject W does not match theimaging list information, the procedure proceeds to step S305, and thecontrol unit 50 displays information indicating the non-match on thedisplay 56. Further, the procedure returns to step S304, and the controlunit 50 performs collation of the changed photographic subject W.

On the other hand, in a case where the photographic subject W matchesthe imaging list information, the procedure proceeds to step S308. Instep S308, the control unit 50 transmits collation terminationinformation to the radiographic image capturing apparatus 14. Asdescribed above, in a case where the collation termination informationis received from the console 18, the radiographic image capturingapparatus 14 determines that capturing of a radiographic image isstarted (see step S170 in FIG. 7).

Further, in step S308, the control unit 50 instructs the irradiator 12to perform the capturing of the radiographic image based on the orderinformation.

In the radiographic image capturing apparatus 14, as described above,the capturing of the radiographic image is performed through theprocesses of steps S172 to S178 of the normal mode process, and imagedata of the radiographic image obtained by the imaging is transmitted tothe console 18.

Thus, in step S310, the control unit 50 determines whether or not theimage data of the radiographic image is received. The procedure waitsuntil the image data is received, and then, if the image data isreceived, the procedure proceeds to step S312.

In step S312, the control unit 50 displays the radiographic image on thedisplay 56 using the received image data of the radiographic image.Further, in the next step S314, the control unit 50 stores the receivedimage data of the radiographic image in the storage unit 52.

In this embodiment, as described above, the radiographic image capturingapparatus 14 transmits the image data of the radiographic image forimage reading to the console 18. Thus, the control unit 50 displays aradiographic image for image reading on the display 56 as theradiographic image. FIG. 14 is a schematic diagram illustrating aspecific example of a state where a radiographic image 80 for imagereading is displayed on the display 56 of the console 18.

The radiographic image displayed on the display 56 by the control unit50 is not limited to this embodiment. For example, image processing isperformed with respect to the image data of the radiographic imagereceived from the radiographic image capturing apparatus 14, and aradiographic image after the image processing may be displayed on thedisplay 56. As such a radiographic image, for example, a preview imagemay be displayed on the display 56.

The user confirms the radiographic image 80 for image reading, anddetermines whether or not to perform re-imaging. In the console 18 ofthis embodiment, the user checks a check box 82 displayed on the display56 in a case where the user instructs the re-imaging, and then, operatesan end button 83.

On the other hand, in a case where the imaging is completed withoutperforming the re-imaging, the user checks a check box 81 displayed onthe display 56, and then, operates the end button 83.

In the next step S316, the control unit 50 detects the operations usingthe operation input detector 58 of the console 18. In a case where it isdetected that the instruction operation for performing the re-imaging isperformed by the user, the control unit 50 causes the procedure toproceed to step S318. In step S318, the control unit 50 transmitsre-imaging instruction information to the radiographic image capturingapparatus 14, and then, the procedure returns to step S310.

On the other hand, in a case where the re-imaging is not performed, theprocedure proceeds to step S320. In step S320, the control unit 50transmits imaging completion instruction information to the radiographicimage capturing apparatus 14, and then, the procedure proceeds to stepS322.

In step S322, the control unit 50 stores the order information inassociation with the image data of the radiographic image in the storageunit 52. As described above, since the order information can be acquiredbefore the capturing of the radiographic image in the console 18, here,the order information is stored in association with the image data ofthe radiographic image. Differently from the console 18 of thisembodiment, and similar to the above-described portable informationterminal 16, in a case where additional imaging where the orderinformation cannot be acquired (order information is not issued) isgenerated, photographic subject information input by the user may beacquired, and then, the acquired photographic subject information inassociation with the image data of the radiographic image may be storedin the storage unit 52, similar to the portable information terminal 16.

In the next step S324, the control unit 50 displays the imaging list onthe display 56 again. The display of the imaging list is the same as instep S228 of the above-described portable information terminal 16, inwhich a state where a check box corresponding to order information forwhich imaging is completed is checked is displayed.

In the next step S326, the control unit 50 determines whether or not theentirety of imaging included in the imaging list is terminated. When itis determined that the entirety of imaging is not terminated, theprocedure returns to step S302, and the console process is repeated. Onthe other hand, in a case where it is determined that the entirety ofimaging is terminated, the procedure proceeds to step S328.

In step S328, the control unit 50 transmits termination instructioninformation to the radiographic image capturing apparatus 14. In thenext step S330, the control unit 50 releases the connection to theradiographic image capturing apparatus 14, and then terminates theconsole process. Specifically, the control unit 50 cuts off (terminates)the communication with the radiographic image capturing apparatus 14 torelease the connection to the radiographic image capturing apparatus 14.

As described above, in the console 18 of this embodiment, in a case ofcontrolling the radiographic image capturing apparatus 14 in capturingthe radiographic image, the control unit 50 receives the image data ofthe radiographic image for image reading from the radiographic imagecapturing apparatus 14 and displays the result on the display 56.Further, the console 18 stores the received image data of theradiographic image for image reading in association with the orderinformation in the storage unit 52.

Second Embodiment

In the first embodiment, in a case where the radiographic imagecapturing apparatus 14 is operated in the memory mode (in a case wherethe memory mode process is performed), after the radiographic image iscaptured, at least one of the photographic subject information or theorder information is received from the portable information terminal 16,and the result is stored in the memory 24 in association with the imagedata of the radiographic image. On the other hand, in a secondembodiment, a case where the radiographic image capturing apparatus 14receives at least one of the photographic subject information or theorder information from the portable information terminal 16 before theradiographic image is captured and the result is stored in the memory 24in association with the image data of the radiographic image aftercapturing will be described.

Since a configuration (see FIGS. 1 and 2) of a radiographic imagecapturing system 10 of this embodiment is the same as in the firstembodiment, detailed description thereof will not be repeated.

In the radiographic image capturing system 10 of this embodiment, aterminal process executed by the portable information terminal 16 isdifferent from that in the first embodiment.

FIG. 15 is a flowchart illustrating an example of the flow of a terminalprocess executed by the terminal control unit 30 of the portableinformation terminal 16 of this embodiment. In FIG. 15, the same stepnumbers as in FIG. 8 are given to the steps of performing the sameprocesses as in the terminal process shown in FIG. 8, and descriptionthereof will not be repeated.

An overall flow of the terminal process executed by the portableinformation terminal 16 in this embodiment is the same as in theterminal process (see FIG. 8) in the first embodiment. However, in theterminal process of this embodiment, the process of step S213corresponding to step S226 (see FIG. 8) in the terminal process of thefirst embodiment is executed between step S210 and step S214.

Namely, in step S210, in a case where the terminal control unit 30determines that the photographic subject W matches the imaging listinformation, the procedure proceeds to step S213. In step S213, theterminal control unit 30 transmits at least one of the photographicsubject information or the order information to the radiographic imagecapturing apparatus 14, similar to step S226 in the terminal process ofthe first embodiment, and then, the procedure proceeds to step S214.

In this way, in the portable information terminal 16 of this embodiment,before collation termination information is transmitted to theradiographic image capturing apparatus 14 to start capturing theradiographic image, at least one of the photographic subject informationor the order information is transmitted to the radiographic imagecapturing apparatus 14.

Thus, in the radiographic image capturing system 10 of this embodiment,the memory mode process executed by the radiographic image capturingapparatus 14 is different from that in the first embodiment. The overallflow in the imaging process (see FIG. 3) and the normal mode process(see FIG. 7), executed by the radiographic image capturing apparatus 14,are the same as in the first embodiment.

FIG. 16 is a flowchart illustrating an example of the flow of a memorymode process executed by the imaging control unit 22 of the radiographicimage capturing apparatus 14 of this embodiment. In FIG. 16, the samestep numbers as in FIG. 5 are given to the steps of performing the sameprocesses as in the memory mode process shown in FIG. 5, and descriptionthereof will not be repeated.

An overall flow of the memory mode process executed by the radiographicimage capturing apparatus 14 in this embodiment is the same as in thememory mode process (see FIG. 5) in the first embodiment. However, inthe memory mode process of this embodiment, the process of step S131corresponding to step S146 (see FIG. 5) in the memory mode process ofthe first embodiment is executed between step S130 and step S132.

Namely, in step S130, after the imaging control unit 22 transmitsinformation indicating that the mode is changed to the memory mode andthe information indicating the number of photographable images to theportable information terminal 16, the procedure proceeds to step S131.In step S131, the imaging control unit 22 receives at least one of thephotographic subject information or the order information from theportable information terminal 16, similar to step S146 in the memorymode process of the first embodiment, and then, the procedure proceedsto step S132.

As described above, in the radiographic image capturing apparatus 14 ofthis embodiment, in the memory mode process, before the radiographicimage is captured, at least one of the photographic subject informationor the order information is received from the portable informationterminal 16. Further, as described above, in step S148, the imagingcontrol unit 22 stores at least one of the photographic subjectinformation or the order information in association with the image dataof the radiographic image in the memory 24 of the radiographic imagecapturing apparatus 14.

The console process (see FIG. 13) executed by the console 18 is the sameas in the first embodiment.

Third Embodiment

In the first and second embodiments, in a case where the radiographicimage capturing apparatus 14 is operated in the memory mode, theradiographic image capturing apparatus 14 stores the image data of theradiographic image in association with at least one of the photographicsubject information or the order information in the memory 24. On theother hand, in a third embodiment, a case where the portable informationterminal 16 associates the image data of the radiographic image with atleast one of the photographic subject information or the orderinformation will be described.

Since a configuration (see FIGS. 1 and 2) of a radiographic imagecapturing system 10 of this embodiment is the same as in the firstembodiment, detailed description thereof will not be repeated.

In this embodiment, a memory mode process executed by the radiographicimage capturing apparatus 14 is different from that in the firstembodiment. An overall flow in the imaging process (see FIG. 3) and thenormal mode process (see FIG. 7), executed by the radiographic imagecapturing apparatus 14, are the same as in the first embodiment.

FIG. 17 is a flowchart illustrating an example of the flow of a memorymode process executed by the imaging control unit 22 of the radiographicimage capturing apparatus 14 of this embodiment. In FIG. 17, the samestep numbers as in FIG. 5 are given to the steps of performing the sameprocesses as in the memory mode process as shown in FIG. 5, anddescription thereof will not be repeated. Further, FIG. 18 is a diagramillustrating a concept of the memory mode process in the radiographicimage capturing apparatus 14 of the third embodiment.

The memory mode process executed by the radiographic image capturingapparatus 14 in this embodiment is the same as the memory mode process(see FIG. 5) in the first embodiment in the overall flow. However, inthe memory mode process of this embodiment, the imaging control unit 22executes step S143 instead of step S142 of the memory mode process (seeFIG. 5) in the first embodiment.

In the radiographic image capturing apparatus 14 of this embodiment, animage identification (ID) for specifying an individual is given to imagedata of a radiographic image obtained by imaging, stored in the memory24.

Thus, in step S143 of the memory mode process of this embodiment, theimaging control unit 22 transmits image data of a preview image and animage ID given to a radiographic image corresponding to the previewimage to the portable information terminal 16.

Further, the radiographic image capturing apparatus 14 of thisembodiment does not perform the process of associating the image data ofthe radiographic image with at least one of the photographic subjectinformation or the order information. Thus, as shown in FIG. 17, in thememory mode process of this embodiment, the imaging control unit 22 doesnot execute the processes of steps S146 and S148 of the memory modeprocess (see FIG. 5) in the first embodiment.

In this way, in the radiographic image capturing apparatus 14 of thisembodiment, for example, as shown in FIG. 18, the image data of thepreview image and the image ID given to the radiographic imagecorresponding to the preview image are transmitted to the portableinformation terminal 16 by the above-described memory mode process.

On the other hand, in the radiographic image capturing system 10 of thisembodiment, the terminal process executed by the portable informationterminal 16 is different from that in the first embodiment.

FIG. 19 is a flowchart illustrating an example of the flow of a terminalprocess executed by the terminal control unit 30 of the portableinformation terminal 16 of this embodiment. In FIG. 19, the same stepnumbers as in FIG. 8 are given to the steps of performing the sameprocesses as in the terminal process shown in FIG. 8, and descriptionthereof will not be repeated.

An overall flow of the memory mode process executed by the portableinformation terminal 16 in this embodiment is the same as in theterminal process (see FIG. 8) in the first embodiment. However, in theterminal process of this embodiment, the terminal control unit 30executes step S217 instead of step S216 of the terminal process (seeFIG. 8) in the first embodiment. Further, the terminal control unit 30executes step S227 instead of step S226 of the terminal process (seeFIG. 8) in the first embodiment.

As described above, image data of a preview image and an image ID givento a radiographic image corresponding to the preview image aretransmitted from the radiographic image capturing apparatus 14. Thus, instep S217, the terminal control unit 30 determines whether or not theimage data of the preview image and the image ID given to theradiographic image corresponding to the preview image are received. Theprocedure waits until the image data and the image ID are received, andif the image data and the image ID are received, the procedure proceedsto step S218.

Further, in step S227, the terminal control unit 30 stores at least oneof the photographic subject information or the order information in thestorage unit 32 in association with the image ID received in a casewhere the determination in step S217 is affirmative.

In this way, the portable information terminal 16 of this embodimentstores at least one of the photographic subject information of thecaptured photographic subject W or the order information in the storageunit 32 in association with an image ID given to a radiographic image ofthe photographic subject W stored in the memory 24 of the radiographicimage capturing apparatus 14, in the process of step S227.

Thus, after imaging, by referring to the image data of the radiographicimage stored in the memory 24 of the radiographic image capturingapparatus 14, and at least one of the photographic subject informationor the order information stored in the storage unit 32 of the portableinformation terminal 16, it is possible to associate the image data ofthe radiographic image with at least one of the photographic subjectinformation or the order information based on the image ID, in theconsole 18. In a case where the portable information terminal 16receives the order information from the console 18, information (consoleID or the like) indicating the console 18 is transmitted to theradiographic image capturing apparatus 14, and the radiographic imagecapturing apparatus 14 stores the information in association with theimage data of the radiographic image in the memory 24, to thereby makeit possible to specify the console 18 that performs the association.

The console process (see FIG. 13) executed by the console 18 is the sameas in the first embodiment.

Fourth Embodiment

In the respective embodiments described above, the memory mode and thenormal mode are described as the imaging mode. On the other hand, in afourth embodiment, other imaging modes will be described.

Since a configuration (see FIGS. 1 and 2) of the radiographic imagecapturing system 10 of this embodiment is the same as in the firstembodiment, detailed description thereof will not be repeated.

In this embodiment, as specific examples of other imaging modes in theradiographic image capturing apparatus 14, a power saving mode and ahigh speed mode will be described. The power saving mode refers to animaging mode in which power consumption of the radiographic imagecapturing apparatus 14 is relatively reduced, which is an imaging modein which the power consumption is reduced compared with that in a highspeed mode.

On the other hand, the high speed mode refers to an imaging mode inwhich an imaging operation of a radiographic image can be performed athigh speed, and an imaging mode in which irradiation starting withradiation R is determined at high speed compared with that in the powersaving mode.

As described above, the radiographic image capturing apparatus 14 ofthis embodiment detects the irradiation starting with the radiation Rusing the host apparatus in an asynchronous manner with the irradiator12. If the radiation detector 20 enters a ready state, the radiographicimage capturing apparatus 14 performs an operation of detecting theirradiation starting with the radiation R. Thus, in the ready state, thepower consumption increases compared with the standby state or the sleepstate.

In the radiographic image capturing apparatus 14 of this embodiment, inthe power saving mode, after positioning of a photographic subject W isterminated and starting of imaging is instructed from the controlapparatus, the radiation detector 20 enters the ready state, and thus,the time in the ready state is shortened to reduce the power consumptionas much as possible. On the other hand, in the high speed mode, in acase where the radiation detector 20 enters the ready state before thestarting of imaging is instructed from the control apparatus, and if thestarting of imaging is instructed, the mode is changed to a state whereirradiation starting with radiation R can be immediately detected, tothereby perform the high speed operation.

In a case where the portable information terminal 16 is used as thecontrol apparatus, generally, in many cases, imaging is performed at animaging position where means for supplying source power to theradiographic image capturing apparatus 14 from the outside is notprovided. Thus, in a case where the portable information terminal 16 isused as the control apparatus, the power saving mode in which the powerconsumption of the radiographic image capturing apparatus 14 can bereduced is suitable as the imaging mode.

On the other hand, in a case where the console 18 is used as the controlapparatus, imaging is performed at an imaging position where means forsupplying source power to the radiographic image capturing apparatus 14from the outside is provided, such as a clinic of the department ofradiology. Thus, in a case where the console 18 is used as the controlapparatus, the high speed mode in which an operation can be operated athigh speed is suitable as the imaging mode, compared with a case wherethe power consumption of the radiographic image capturing apparatus 14is reduced.

Thus, in the radiographic image capturing apparatus 14 of thisembodiment, in a case where the connected control apparatus is theportable information terminal 16, the power saving mode is selected asthe imaging mode, and in a case where the connected control apparatus isthe console 18, the high speed mode is selected as the imaging mode. Inthe radiographic image capturing apparatus 14 of this embodiment, in thecase of the power saving mode, since the connected control apparatus isthe portable information terminal 16, similar to the memory mode processof the first embodiment, generation and transmission of a preview imageare performed, and a process of storing image data of radiographicimages corresponding to plural orders in the memory 24 is alsoperformed. Further, in the radiographic image capturing apparatus 14 ofthis embodiment, in the case of the high speed mode, since the connectedcontrol apparatus is the console 18, similar to the normal mode of thefirst embodiment, generation and transmission of a radiographic imagefor image reading are performed, and a process of storing image data ofradiographic images corresponding to plural orders in the memory 24 isnot performed.

An operation of the radiographic image capturing system 10 of thisembodiment in a case of capturing a radiographic image will bedescribed.

First, an operation of the radiographic image capturing apparatus 14will be described. FIG. 20 is a flowchart illustrating an example of theflow of an imaging process executed by the imaging control unit 22 ofthe radiographic image capturing apparatus 14 of this embodiment. Anoverall flow of the imaging process executed by the radiographic imagecapturing apparatus 14 in this embodiment is the same as the imagingprocess (see FIG. 3) in the first embodiment. Thus, in FIG. 20, the samestep numbers as in FIG. 3 are given to the steps of performing the sameprocesses as in the imaging process shown in FIG. 3, and descriptionthereof will not be repeated.

As shown in FIG. 20, in the imaging process of this embodiment, theimaging control unit 22 executes a power saving mode process of stepS109, instead of the memory mode process in step S108 of the imagingprocess (see FIG. 3) in the first embodiment. Further, the imagingcontrol unit 22 executes a high speed mode process in step S111 insteadof the normal mode process in step S110 of the imaging process (see FIG.3) in the first embodiment.

First, the power saving mode process will be described. In a case wherethe power saving mode process is performed (in a case where the imagingmode is the power saving mode), as described above, the connectedcontrol apparatus is the portable information terminal 16.

FIG. 21 is a flowchart illustrating an example of the flow of the powersaving mode process executed by the imaging control unit 22 of theradiographic image capturing apparatus 14 of this embodiment.

The power saving mode process executed by the imaging control unit 22 ofthe radiographic image capturing apparatus 14 is different from thememory mode process (see FIG. 5) of the first embodiment in adetermination method for determining that the imaging control unit 22starts the capturing of the radiographic image. In step S132 of thememory mode process of the first embodiment, in a case where collationtermination information is received, the imaging control unit 22determines that the capturing of the radiographic image is started. Onthe other hand, in step S132A of the memory mode process of thisembodiment, in a case where positioning termination information isreceived, the imaging control unit 22 determines that the capturing ofthe radiographic image is started.

As shown in FIG. 21, since processes executed in other respective stepsare the same as in the memory mode process (see FIG. 5) of the firstembodiment, description thereof will not be repeated.

On the other hand, FIG. 22 is a flowchart illustrating an example of theflow of a terminal process executed by the terminal control unit 30 ofthe portable information terminal 16 of this embodiment.

As shown in FIG. 22, the terminal process executed by the terminalcontrol unit 30 of the portable information terminal 16 performs thesame process as the terminal process in the first embodiment, exceptthat steps S214A and 214B are executed instead of step S214 in theterminal process (see FIG. 8) of the first embodiment.

In step S214A, the terminal control unit 30 determines whether or notthe positioning of the photographic subject W is terminated. If thephotographic subject W matches a photographic subject W included inimaging list information, a user positions the photographic subject W.Alternatively, the user positions the photographic subject W and thenperforms collation of the photographic subject W.

The portable information terminal 16 of this embodiment causes the userto perform an operation of instructing termination of the positioning inorder to determine whether or not the user terminates the positioning ofthe photographic subject W, and in step S214A, detects the operation ofthe user to determine whether or not the positioning of the photographicsubject W is terminated.

Thus, the terminal control unit 30 of the portable information terminal16 of this embodiment performs a display for causing the user to performthe operation of instructing the positioning termination on the display36. FIG. 23 is a schematic diagram illustrating a specific example of astate where the display for causing the user to perform the operation ofinstructing the positioning termination is performed on the display 36of the portable information terminal 16. In FIG. 23, a state wherecontent of an imaging list for which the imaging is being performed andan operating button 90 for instructing the positioning termination aredisplayed is shown.

If the positioning of the photographic subject W is terminated, the useroperates the operating button 90 displayed on the display 36. Theterminal control unit 30 detects that the operating button 90 isoperated using the operation input detection unit 38. Further, theprocedure waits until the terminal control unit 30 detects that theoperating button 90 is operated by the user, and in a case where it isdetected that the operating button 90 is operated, the procedureproceeds to step S214B.

In step S214B, the terminal control unit 30 transmits positioningtermination information to the radiographic image capturing apparatus14. The positioning termination information indicates that thepositioning of the photographic subject W is terminated, corresponds tothe collation termination information of the first embodiment, andincludes information for instructing the radiographic image capturingapparatus 14 to capture a radiographic image.

As described above, in a case where the positioning terminationinformation is received from the portable information terminal 16, theradiographic image capturing apparatus 14 determines that the capturingof the radiographic image is started (see step S132A in FIG. 21).

Further, similar to step S214 (see FIG. 5) in the memory mode process ofthe first embodiment, in step S214B, the terminal control unit 30transmits imaging instruction information for a radiographic image tothe irradiator 12 based on order information.

Next, the high speed mode process will be described. In a case where thehigh speed mode process is performed (in a case where the imaging modeis the high speed mode), as described above, the connected controlapparatus is the console 18.

FIG. 24 is a flowchart illustrating an example of the flow of thehigh-speed mode process executed by the imaging control unit 22 of theradiographic image capturing apparatus 14 of this embodiment.

In the high speed mode process of this embodiment, a timing when thecontrol for causing the radiation detector 20 to enter the ready stateis performed by the imaging control unit 22 is different from that inthe memory mode process (see FIG. 5) of the first embodiment. Thus, inthe high speed mode process of this embodiment, the imaging control unit22 executes a process of step S169 corresponding to step S172 of thenormal mode process (see FIG. 7) of the first embodiment immediatelybefore step S170.

That is, if the high speed mode process is started, first, in step S169,the imaging control unit 22 performs the control for causing theradiation detector 20 to enter a ready state where detection of theradiation R can be immediately performed.

Then, in step S170A, the imaging control unit 22 determines whether ornot capturing of a radiographic image is started. Here, a determinationmethod for determining that the imaging control unit 22 starts thecapturing of the radiographic image is the same as in step S132 of thepower saving mode process (see FIG. 21).

As shown in FIG. 24, since processes executed in other respective stepsare the same as in the normal mode process (see FIG. 7) of the firstembodiment, description thereof will not be repeated.

On the other hand, FIG. 25 is a flowchart illustrating an example of theflow of a console process executed by the control unit 50 of the console18 of this embodiment.

As shown in FIG. 25, the console process executed by the control unit 50of the console 18 is the same process as the console process of thefirst embodiment, except that steps S308A and S308B are executed insteadof step S308 in the console process (see FIG. 13) of the firstembodiment.

Processes of step S308A and S308B are the same processes as in stepsS214A and S214B, respectively, of the power saving mode process (seeFIG. 21).

In step S308A, the control unit 50 determines whether or not thepositioning of the photographic subject W is terminated, and waits untilthe determination is affirmative. If the determination is affirmative,the procedure proceeds to step S308B.

In step S308B, the control unit 50 transmits positioning terminationinformation to the radiographic image capturing apparatus 14. If thepositioning termination information is received from the console 18, theradiographic image capturing apparatus 14 determines that the capturingof the radiographic image is started (see step S170A in FIG. 24).

Further, in step S308B, the control unit 50 transmits imaginginstruction information for a radiographic image to the irradiator 12based on order information.

In this way, the radiographic image capturing apparatus 14 of thisembodiment includes the power saving mode and the high speed mode as theimaging mode. In capturing the radiographic image, in a case where theconnected control apparatus is the portable information terminal 16, theimaging control unit 22 of the radiographic image capturing apparatus 14selects the power saving mode as the imaging mode. Further, in capturingthe radiographic image, in a case where the connected control apparatusis the console 18, the imaging control unit 22 selects the high speedmode as the imaging mode.

Thus, in the radiographic image capturing apparatus 14 of thisembodiment, it is possible to select the imaging mode suitable for theconnected control apparatus.

The imaging mode is not limited to the imaging mode described in thepresent embodiment and the above-described embodiments. For example, theimaging mode may be a synchronous mode in which detection of radiation Ris performed in synchronization with the irradiator 12 in theradiographic image capturing apparatus 14, or may be an asynchronousmode in which detection of radiation R is performed in an asynchronousmanner with the irradiator 12.

Further, for example, the imaging mode may be an imaging mode dependingon image quality of a radiographic image to be captured. In this case,as the imaging mode, for example, a definition mode which is an imagingmode in which a high-definition radiographic image is captured, a lownoise mode in which the number of times of sampling of radiation R inthe radiation detector 20 is increased to reduce noise, a sensitivitypriority mode which is an imaging mode in which detection sensitivity ofradiation R in the radiation detector 20 is preferentially considered,or the like may be used.

Fifth Embodiment

In the above-described embodiments, a case where the imaging mode isselected according to the image processing capacity of the controlapparatus has been described. On the other hand, in a fifth embodiment,a case where the imaging mode is selected based on the image processingcapacity of the control apparatus and the communication capacity betweenthe radiographic image capturing apparatus 14 and the control apparatuswill be described. Specifically, a case where the imaging mode isselected based on an evaluation result obtained by evaluating the imageprocessing capacity and the communication capacity will be described.

In this embodiment, the “communication capacity” refers to a capacitybased on at least one of communication standard, communication speed,traffic, stability, or the like, for example.

Since a configuration (see FIGS. 1 and 2) of the radiographic imagecapturing system 10 of this embodiment is the same as in the firstembodiment, detailed description thereof will not be repeated.

The imaging control unit 22 of the radiographic image capturingapparatus 14 of this embodiment functions as an evaluation unit and aselection unit of the invention.

An operation of the radiographic image capturing system 10 of thisembodiment in a case of capturing a radiographic image will bedescribed.

An operation of the radiographic image capturing apparatus 14 will bedescribed. FIG. 27 is a flowchart illustrating an example of the flow ofan imaging process executed by the imaging control unit 22 of theradiographic image capturing apparatus 14 of this embodiment. Theimaging process executed by the radiographic image capturing apparatus14 in this embodiment is the same as the imaging process (see FIG. 3) inthe first embodiment in the entire flow. Thus, in FIG. 27, the same stepnumbers as in FIG. 3 are given to the steps of performing the sameprocesses as in the imaging process shown in FIG. 3, and descriptionthereof will not be repeated.

As shown in FIG. 27, in the imaging process of this embodiment, theimaging control unit 22 executes steps S105A and S105B after step S104of the imaging process (see FIG. 3) in the first embodiment. Further,the imaging control unit 22 executes a process of step S107 instead ofthe memory mode process of step S106 in the imaging process (see FIG.3).

In step S105A, the imaging control unit 22 acquires an evaluation valueof the connected control apparatus. In this embodiment, the “evaluationvalue” refers to a value obtained by evaluating the image processingcapacity and the communication capacity.

A specific example of the evaluation value will be described withreference to FIG. 28.

First, the evaluation value of the image processing capacity will bedescribed. In the radiographic image capturing system 10 of thisembodiment, as the evaluation value of the image processing capacity, anevaluation value is determined based on the image quality of aradiographic image capable of being displayed using the controlapparatus. As shown in FIG. 28, the image quality of the radiographicimage is determined in advance based on hardware of the controlapparatus, and software used for image processing.

In a specific example shown in FIG. 28, the image quality of theradiographic image is determined in advance based on hardware of thecontrol apparatus and software used for image processing, in whichevaluation values A to C are determined in advance based on the imagequality of the radiographic image. In the radiographic image capturingsystem 10 of this embodiment, the evaluation value of the image qualityis as follows: A is the highest, and C is the lowest. Further, in thecontrol apparatus that does not display a radiographic image, or in thecontrol apparatus that cannot display a radiographic image, N is givenas the evaluation value of the image quality.

The imaging control unit 22 of the radiographic image capturingapparatus 14 acquires the evaluation value of the image processingcapacity based on hardware and software of the connected controlapparatus. An acquisition method of the evaluation value of the imageprocessing capacity is not particularly limited, but for example, asshown in the specific example in FIG. 28, a specific example of theevaluation value of the image processing capacity may be stored in thememory 24 in advance, information relating to the hardware and thesoftware to be used may be acquired from the connected controlapparatus, and an evaluation value corresponding to the acquiredinformation may be acquired from the memory 24. Further, acorrespondence relationship between identification information of thecontrol apparatus and the evaluation value of the image processingcapacity may be stored in the memory 24 in advance for each controlapparatus, identification information of the host apparatus may beacquired from the connected control apparatus, and an evaluation valueof the image processing capacity corresponding to the acquiredidentification information may be acquired from the memory 24.

Next, the evaluation value of the communication capacity will bedescribed. As shown in FIG. 29, an applicable communication method foreach control apparatus is determined in advance. In this embodiment, asa specific example, the evaluation value is determined in advance foreach communication method, and the evaluation values respectivelycorrespond to Wi-Fi MIMO (multiple input multiple output) (registeredtrademark), Wi-Fi (registered trademark), Bluetooth (registeredtrademark), Infrared Data Association (IrDA) (registered trademark), andnear field communication (NFC). The evaluation value predetermined foreach communication method is the highest in the case of Wi-Fi MIMO(registered trademark), and decreases in the order of Wi-Fi (registeredtrademark), Bluetooth (registered trademark), IrDA (registeredtrademark), and NFC. The communication methods are not limited to themethods described in this embodiment.

The imaging control unit 22 of the radiographic image capturingapparatus 14 acquires the evaluation value of the communication capacitybased on the communication method for performing communication with theconnected control apparatus. For example, a correspondence relationshipbetween the communication method and the evaluation value of thecommunication capacity may be stored in the memory 24 in advance, and anevaluation value corresponding to the communication method forperforming communication with the connected control apparatus may beacquired from the memory 24.

In the next step S105B, the imaging control unit 22 calculates a totalevaluation value. The “total evaluation value” refers to an evaluationvalue calculated based on the evaluation value of the image processingcapacity and the evaluation value of the communication capacity. As aspecific example, the imaging control unit 22 of this embodiment sets avalue obtained by adding the evaluation value of the image processingcapacity to the evaluation value of the communication capacity as thetotal evaluation value. In a case of performing the addition, weightingmay be performed with respect to any one of the evaluation value of theimage processing capacity and the evaluation value of the communicationcapacity.

In the next step S107, the imaging control unit 22 determines whether ornot the total evaluation value is equal to or lower than a predeterminedthreshold value for imaging mode selection. In the radiographic imagecapturing system 10 of this embodiment, as the total evaluation value ishigh, the normal mode is suitable as the imaging mode, and as the totalevaluation value is low, the memory mode is suitable as the imagingmode. Thus, in the radiographic image capturing apparatus 14 of thisembodiment, a threshold value for imaging mode selection is obtained inadvance through an experiment or the like, and if the total evaluationvalue is equal to or lower than the threshold value for imaging modeselection, the memory mode is selected, and if the total evaluationvalue exceeds the threshold value for imaging mode selection, the normalmode is selected.

Thus, in a case where the determination in step S107 is affirmative, theprocedure proceeds to step S108, and the imaging control unit 22executes the above-described memory mode process. On the other hand, ina case where the determination is negative, the procedure proceeds tostep S110, and the imaging control unit 22 executes the above-describednormal mode process.

In this way, the radiographic image capturing apparatus 14 of thisembodiment includes the I/F unit 28 and the imaging control unit 22 thatfunction as a communication unit that selectively performs communicationwith any of the portable information terminal 16 and the console 18which are plural control apparatuses that respectively perform a controlrelating to capturing of a radiographic image. Further, the radiographicimage capturing apparatus 14 includes the imaging control unit 22 thatfunctions as an evaluation unit that evaluates at least one of the imageprocessing capacity, with respect to the radiographic image, of thecontrol apparatus that performs communication with the communicationunit, or the communication capacity through which the communication unitperforms communication with the control apparatus, in a case ofcapturing the radiographic image, and a selection unit that selects anyone of plural imaging modes predetermined with respect to the capturingof the radiographic image based on the evaluation result of theevaluation unit.

Thus, in the radiographic image capturing apparatus 14 of thisembodiment, it is possible to select the imaging mode suitable for theconnected control apparatus.

In the radiographic image capturing system 10 of this embodiment, theimaging mode is selected based on the total evaluation value obtained bythe evaluation value of the image processing capacity and the evaluationvalue of the communication capacity, but the imaging mode may beselected based on any one of the evaluation value of the imageprocessing capacity and the evaluation value of the communicationcapacity.

Further, the imaging mode may be selected using an evaluation valuedepending on a residual quantity of a storage unit provided in thecontrol apparatus, or an evaluation value depending on a residualquantity of a battery (source power) of the control apparatus, inaddition to the evaluation value of the image processing capacity andthe evaluation value of the communication capacity. For example, in acase where the residual quantity of the storage unit provided in thecontrol apparatus is small, since the memory mode is suitable as theimaging mode, an evaluation value that becomes small as the residualquantity of the storage unit is small may be determined in advance.Further, for example, in a case where the residual quantity of thebattery of the control apparatus is small, the radiographic imagecapturing apparatus 14 and the portable information terminal 16 may beconnected to each other using a communication method in which powerconsumption is reduced, and an evaluation value depending on thecommunication method may be acquired.

Further, the imaging mode may be selected using an evaluation valuedepending on the residual quantity of the memory 24 of the radiographicimage capturing apparatus 14 or an evaluation value depending on theresidual quantity of a battery (source power) of the control apparatus.For example, in a case where the residual quantity of the memory 24 issmall, since the memory mode is suitable as the imaging mode, anevaluation value that becomes small as the residual quantity of thememory 24 is small may be determined in advance. Further, for example,in a case where the residual quantity of the battery of the controlapparatus is small, the radiographic image capturing apparatus 14 andthe portable information terminal 16 may be connected to each otherusing a communication method in which power consumption is reduced, andan imaging mode depending on the communication method may be acquired.

Further, the imaging mode may be selected using an evaluation valueobtained by evaluating user operability (operation capability) withrespect to the control apparatus, easiness in conveyance, or the like.For example, since the operability or the easiness in conveyance variesaccording to a connection state between a main body having a controlfunction and a display unit such as a display, and a keyboard, theimaging mode may be selected using an evaluation value that variesaccording to the connection state. As a specific example, in a casewhere the main body having the control function and the display unitsuch as a display and the keyboard are not connected to each other, theevaluation value may be determined so that the memory mode is selectedas the imaging mode.

Sixth Embodiment

In a sixth embodiment, a case where a video mode and a static image modeare provided as the imaging mode will be described.

In the case of the video mode, the radiation detector 20 continuouslyradiation at high speed (high frame rate) to capture radiographicimages, compared with a case where static images are continuouslycaptured, and transmits image data in real time.

Further, in this embodiment, in the case of the video mode, a wearabledevice may be used as the control apparatus.

FIG. 30 is a schematic configuration diagram illustrating an example ofa radiographic image capturing system of this embodiment. A radiographicimage capturing system 10 of this embodiment is different from theradiographic image capturing system 10 of the first embodiment (seeFIGS. 1 and 2) in that a wearable terminal 100 is provided as thewearable device.

The wearable terminal 100 is not particularly limited, and may be anytype of wearable device which may be driven by a built-in battery. As aspecific example of the wearable terminal 100, a spectacle-type computersuch as smart glasses, a head mounted display (HMD), a timepiece-typecomputer, or the like may be used. Even a PDA such as a smart phone maybe considered as the wearable device as long as it is a device capableof being worn by a user and capable of being driven by a built-inbattery. The wearable terminal 100 of this embodiment is a devicecapable of being operated by a gesture such as a wink, voice, or thelike without a user's contact with a device body of the wearableterminal 100.

As shown in FIG. 31, the wearable terminal 100 of this embodimentincludes a wearable control unit 110, a display driver 112, a reader113, a display 114, an operation input detection unit 116, an operationunit 118, an I/O unit 120, and an I/F unit 122. The wearable controlunit 110, the display driver 112, the reader 113, the operation inputdetection unit 116, and the I/O unit 120 are connected to exchange avariety of information through a bus 127 such as a system bus or acontrol bus, for example.

The wearable control unit 110 has a function of controlling an overalloperation of the wearable terminal 100.

The wearable control unit 110 includes a CPU, a ROM, and a RAM. The ROMstores in advance various processing programs including a wearableterminal process program (which will be described later) executed by theCPU, or the like. The RAM has a function of temporarily storing avariety of data.

The reader 113 of this embodiment has a function of reading a character,an image, or the like, or a function of imaging a person or the like.Specifically, the reader 113 has a camera function, and functions as abarcode reader.

The display 114 of this embodiment is an example of a display unit ofthe invention, and has a function of displaying a variety of informationrelating to imaging. The display driver 112 has a function ofcontrolling display of the variety of information on the display 114.

The operation unit 118 is connected to the operation input detectionunit 116, and is provided at a position where there is no interferencewhen a radiographic image is captured in a housing (not shown) of theradiographic image capturing apparatus 14.

The operation unit 118 is used in a case where a user inputs aninstruction relating to capturing of a radiographic image, a variety ofinformation, or the like. As described above, the operation unit 118 maybe operated by at least a gesture such as a wink, voice or the like. Itis preferable that only a specific person such as a user who uses thewearable terminal 100 is able to perform an operation using theoperation unit 118.

In this embodiment, the display 114 and the operation unit 118 areintegrated to form a touch panel display. The operation input detectionunit 116 has a function of detecting an operation state with respect tothe operation unit 118.

The I/O unit 120 and the I/F unit 122 have a function for performingcommunication of a variety of information with the radiographic imagecapturing apparatus 14, the portable information terminal 16, and theconsole 18 through wireless communication using radio waves or light, orthe like. The wearable terminal 100 of this embodiment uses short-rangewireless communication in a case of performing communication with theradiographic image capturing apparatus 14, and uses wireless LANcommunication in a case of performing communication with the console 18.Specifically, the wearable terminal 100 of this embodiment usesBluetooth (registered trademark) in a case of performing communicationwith the radiographic image capturing apparatus 14, and uses Wi-Fi(registered trademark) in a case of performing communication with theconsole 18.

An operation of the radiographic image capturing system 10 of thisembodiment in a case where a radiographic image is captured will bedescribed.

An operation of the radiographic image capturing apparatus 14 will bedescribed. FIG. 32 is a flowchart illustrating an example of the flow ofan imaging process executed by the imaging control unit 22 of theradiographic image capturing apparatus 14 of this embodiment. Theimaging process executed by the radiographic image capturing apparatus14 in this embodiment is the same as the imaging process (see FIG. 27)in the fifth embodiment in the entire flow. Thus, in FIG. 32, the samestep numbers as in FIG. 32 are given to the steps of performing the sameprocesses as in the imaging process shown in FIG. 27, and descriptionthereof will not be repeated.

As shown in FIG. 32, in the imaging process of this embodiment, theimaging control unit 22 executes processes of steps S108A and step S110Ainstead of steps S108 and S110 in the fifth embodiment.

In this embodiment, similar to the fifth embodiment, an imaging mode isselected according to a threshold value. In this embodiment, in the caseof a video mode, since image data of plural radiographic images iscontinuously transmitted to a control apparatus, the video mode isselected in a case where the communication capacity is relatively high.Thus, the threshold value for video mode selection is obtained inadvance through an experiment or the like. Here, if a total evaluationvalue is equal to or lower than the threshold value for the video modeselection, a static image mode is selected, and if the total evaluationvalue exceeds the threshold value for the video mode selection, thevideo mode is selected. The relationship between the threshold value inthe video mode selection and the total evaluation value is not limitedto this embodiment. For example, there is a case where the video imagemay have image quality lower than that of the static image. In such acase, in a case where the image processing capacity is relatively low,the video mode may be selected. In this case, a threshold value forvideo mode selection may be obtained in advance through an experiment orthe like, and then, if a total evaluation value is equal to or lowerthan the threshold value for the video mode selection, the video mode isselected, and if the total evaluation value exceeds the threshold valuefor the video mode selection, the static image mode may be selected.Further, which one of the image processing capacity and thecommunication capacity is preferentially used may be set, and therelationship between the threshold value in the video mode selection andthe total evaluation value may be determined according to thepreferentially used capacity.

In a static image mode process in step S108A, it is sufficient ifcapturing of a static image is captured, and other processes are notparticularly limited. For example, any one of the memory mode and thenormal mode described in the above embodiments may be executed. Further,for example, similar to the fifth embodiment, any one of the memory modeand the normal mode may be selected in advance based on a totalevaluation value and a threshold value for imaging mode selection by anexperiment or the like, for execution.

On the other hand, in step S110A, the video mode process (an examplethereof is shown in FIG. 33) is executed. As shown in FIG. 33, since thevideo mode process of this embodiment includes the same process as thenormal mode process in the first embodiment, the same reference numeralsare given to the same processes, and detailed description thereof willnot be repeated.

As shown in FIG. 33, in the video mode process, steps S166 and S168 areexecuted before step S170.

In step S166, the imaging control unit 22 determines whether or not thewearable terminal 100 controls the radiographic image capturingapparatus 14. That is, the imaging control unit 22 determines whether ornot the wearable terminal 100 performs controls (various instructions orthe like) performed from a control device with respect to capturing of aradiographic image. For example, in a case where the wearable terminal100 performs communication with the radiographic image capturingapparatus 14, in a case where setting for performing control in thewearable terminal 100 is performed in advance, or in a case where aninstruction for the setting is received, the determination becomesaffirmative. In a case where the determination is affirmative, theprocedure proceeds to step S168.

In step S168, the imaging control unit 22 prohibits reception of aninstruction from the control apparatus. Specifically, the imagingcontrol unit 22 prohibits reception of a control instruction relating toimaging from the portable information terminal 16 or the console 18connected as the control apparatus, and notifies the connected controlapparatus of a message thereof. A method for prohibiting the receptionof the control instruction relating to the imaging in the radiographicimage capturing apparatus 14 is not particularly limited, and thus,reception of a signal from the control apparatus may be prohibited, or areceived signal may be ignored to be discarded.

In this way, in a case where the reception of the instruction from thecontrol apparatus is prohibited, the radiographic image capturingapparatus 14 performs capturing of a radiographic image under thecontrol of the wearable terminal 100.

Then, in step S172A, the imaging control unit 22 performs a control forcausing the radiation detector 20 to enter a ready state which is astate where detection of radiation R can be immediately performed. Inthis embodiment, the wearable terminal 100 instructs the irradiator 12to capture a radiographic image. Thus, the irradiator 12 performsirradiation with the radiation R in a case where imaging instructioninformation for a radiographic image transmitted from the wearableterminal 100 is received.

Under the control of the wearable terminal 100 and the imaging controlunit 22, the radiation detector 20 detects the radiation R that isemitted from the irradiator 12 and passes through the photographicsubject W, to thereby capture the radiographic image depending on thephotographic subject W. In this embodiment, in order to performcapturing of a video image, the radiation detector 20 continuouslycaptures radiographic images at predetermined frame rate. Thus, wheneverimage data of plural radiographic images depending on the frame rate iscaptured, the image data is sequentially output from the radiationdetector 20.

After the radiographic images are captured by the radiation detector 20,in the next step S174A, the imaging control unit 22 sequentiallyacquires plural pieces of image data (video image data) output from theradiation detector 20. In the next step S176A, the imaging control unit22 sequentially stores the acquired plural pieces of image data (videoimage data) in the memory 24.

In the next step S178A, the imaging control unit 22 sequentiallytransmits the image data (video image data) of the radiographic imagesto the connected control apparatus.

Further, in the radiographic image capturing system 10 of thisembodiment, in a case where a user who confirms the video imagedisplayed on the control apparatus desires re-imaging, the user mayinstruct the re-imaging by the wearable terminal 100.

In this way, in the case of the video mode, since the video image datais transmitted to the control apparatus from the radiographic imagecapturing apparatus 14 according to the capturing of the radiographicimages, the control apparatus can display the radiographic images whichform the video images in real time.

On the other hand, the wearable terminal 100 executes a wearableterminal process (an example thereof is shown in FIG. 34). A wearablecontrol unit 110 executes a wearable terminal processing program storedin a ROM thereof, to thereby execute the wearable terminal process.

In step S400 in FIG. 34, the wearable control unit 110 connects the hostapparatus to the radiographic image capturing apparatus 14.Specifically, the wearable control unit 110 performs communication withthe radiographic image capturing apparatus 14, to thereby connect thehost apparatus to the radiographic image capturing apparatus 14. In thisway, as the radiographic image capturing apparatus 14 and the wearableterminal 100 are connected to each other, it is possible to control theradiographic image capturing apparatus 14 by the wearable terminal 100.

In the next step S408, the wearable control unit 110 performs collationof the photographic subject W. Here, the wearable control unit 110reads, as photographic subject information, a photographic subject namedisclosed in a name tag of the photographic subject W, a medical recordcard, or the like, a bar code, and a two-dimensional code such as a QRcode (registered trademark), and the like using the reader 113, andcollates the read data with imaging list information, to thereby performthe collation of the photographic subject W. Further, for example, in acase where a photo image including the face of the photographic subjectW is included in the imaging list information, the terminal control unit30 may take a picture of the face of the photographic subject W usingthe reader 33, and may perform face recognition or the like using animage of the photographed face, for example, to thereby perform thecollation of the photographic subject W. In this way, the collationmethod of the photographic subject W is not particularly limited, andany method capable of collating the photographic subject W to bephotographed with the imaging list information may be used. In addition,fingerprint recognition or the like may be used. The imaging list may beacquired from the control apparatus or the like. Further, the collationmay be performed using the control apparatus or the like, and thewearable terminal 100 may transmit the photographic subject informationread by the reader 113 to the control apparatus, and receive thecollation result from the control apparatus.

In the next step S410, the wearable control unit 110 determines whetheror not the photographic subject W matches a photographic subject Wincluded in the imaging list information, based on the collation resultin the process of step S408. In a case where the determination isnegative, the procedure proceeds to step S411.

In step S411, the wearable control unit 1100 displays informationindicating non-match on the display 114.

On the other hand, in a case where the determination is affirmative, theprocedure proceeds to step S414. In step S414, the wearable control unit110 transmits collation termination information to the radiographicimage capturing apparatus 14. In this embodiment, the collationtermination information represents that the collation of thephotographic subject W is terminated, and includes information forinstructing the radiographic image capturing apparatus 14 to capture aradiographic image.

Further, in step S414, the wearable control unit 110 transmits imaginginstruction information for a radiographic image to the irradiator 12based on order information. The order information may be acquired fromthe control apparatus or the like.

In the radiographic image capturing apparatus 14, the video image iscaptured, and the captured video image is displayed using the controlapparatus. The user confirms the video image, and determines whether ornot to perform re-imaging. In a case of performing the re-imaging, theuser instructs the re-imaging using the operation unit 118. A method forinstructing the re-imaging is not particularly limited, but for example,in a case where the wearable terminal 100 is the spectacle-typecomputer, a method for instructing the re-imaging using a wink may beused.

In a case where the determination in step S420 is affirmative, theprocedure proceeds to step S422. After the wearable control unit 110transmits re-imaging instruction information to the radiographic imagecapturing apparatus 14, the procedure returns to step S420.

On the other hand, in a case where the determination is negative, theprocedure proceeds to step S424. In step S424, the wearable control unit110 transmits imaging completion instruction information to theradiographic image capturing apparatus 14, and then, the procedureproceeds to step S426.

In step S426, the terminal control unit 30 transmits at least one ofphotographic subject information or order information to theradiographic image capturing apparatus 14.

In the next step S430, the terminal control unit 30 determines whetheror not the entirety of imaging included in the imaging list isterminated. In a case where it is determined that the entirety ofimaging is not terminated, the procedure returns to step S408 to repeatthe wearable terminal process. On the other hand, in a case where it isdetermined that the entirety of imaging is terminated, the procedureproceeds to step S432.

In step S432, the wearable control unit 110 transmits terminationinstruction information to the radiographic image capturing apparatus14. In the next step S424, the wearable control unit 110 releases theconnection to the radiographic image capturing apparatus 14, and then,terminates the wearable terminal process. Specifically, the wearablecontrol unit 110 cuts off (terminates) the communication with theradiographic image capturing apparatus 14, to thereby release theconnection to the radiographic image capturing apparatus 14.

Next, an operation of the control apparatus of this embodiment will bedescribed. As a specific example, a case where the control apparatusconnected to the radiographic image capturing apparatus 14 is theportable information terminal 16 will be described.

The portable information terminal 16 executes the terminal process (anexample thereof is shown in FIG. 35). Since the terminal process shownin FIG. 35 is a process similar to the terminal process (FIG. 8) of thefirst embodiment, the same reference numerals are given to the sameprocesses, and detailed description thereof will not be repeated.

In the terminal process shown in FIG. 35, step S200 of the terminalprocess (FIG. 8) of the first embodiment is removed, and step S203 isadded between step S202 and step S204.

In step S203, the terminal control unit 30 determines whether or notcontrol is prohibited. As a specific example, in a case where thecontrol with respect to the radiographic image capturing apparatus 14 isnot prohibited by the process of step S168 of the video mode process(see FIG. 33), the determination becomes negative, and the procedureproceeds to step S204.

Then, in steps S216 and S218 of the terminal process (FIG. 8) of thefirst embodiment, a preview image is received and displayed, but in thisembodiment, instead of the preview image in steps S216A and S218B, avideo image is received and is displayed on the display 36.

Further, in the terminal process of this embodiment, step S228 of theterminal process (FIG. 8) of the first embodiment is removed.

On the other hand, in a case where the determination in step S203 isaffirmative, the procedure proceeds to step S231A. Step S231A and thenext step S231B are the same processes as step S216A, step S218B, andstep S218A. That is, the video image is received and is displayed on thedisplay 36.

In the next step S231C, the terminal control unit 30 determines whetheror not to terminate the process. In a case where imaging completioninstruction information is not received from the wearable terminal 100,the determination becomes negative, and the procedure returns to stepS231A. On the other hand, in a case where the imaging completioninstruction information is received, the determination becomesaffirmative, and the procedure proceeds to step S234.

In this way, in the radiographic image capturing system 10 of thisembodiment, in a case where the video mode is selected as the imagingmode, the radiographic image capturing apparatus 14 can be controlled bythe wearable terminal 100. Further, since the video image is displayedon the control apparatus, it is possible to confirm the video image bythe control apparatus.

According to the radiographic image capturing system 10 of thisembodiment, it is possible to perform an instruction with respect to theradiographic image capturing apparatus 14 by using the wearable terminal100 without operating the operation unit 40 of the portable informationterminal 16. Thus, even in a case where the portable informationterminal 16 is disposed at a space that a user cannot reach, it is easyto perform an instruction with respect to the radiographic imagecapturing apparatus 14. Accordingly, it is possible to enhance usabilityof the radiographic image capturing apparatus for a user.

Further, generally, in many cases, the portable information terminal 16such as a tablet terminal is used in a medical field. For example, asdescribed above, there is a case where a surgical operation is performedwhile displaying a radiographic image which is a video image on thedisplay 36 of the portable information terminal 16 in real time.Further, for example, there is a case where a 3D image obtained byperforming image processing with respect to an image captured bycomputed tomography (CT) or magnetic resonance imaging (MRI) in advanceis displayed on the display 36 of the portable information terminal 16and a surgical operation is performed while confirming a stereoscopicpositional relationship of organs or blood vessels.

In the medical field, in a case where a user performs an operation whiletouching the operation unit 40 provided in the device body of theportable information terminal 16, such as an operation using a touchpanel, there is a high concern that germs attached to the operation unit40 are attached to the user.

Thus, generally, as described above, in a case where the portableinformation terminal 16 is used in the medical field, by sealing theportable information terminal 16 using a sterilized plastic bag or thelike, or by providing a sterilized cover or the like to the portableinformation terminal 16, it is possible to perform the operation withouta user's direct touch with the operation unit 40 provided in the devicebody of the portable information terminal 16.

In this regard, in this embodiment, as the wearable terminal 100 is usedas the control apparatus, the user's operation becomes easy, and it isnot necessary that the user touches the operation unit 40 of theportable information terminal 16. Thus, it is possible to relieve theeffort of the user, for example, for sealing the portable informationterminal 16 using the sterilized plastic bag as described above.

Further, in the wearable terminal 100, the operation may be simplyoperated using a gesture such as a wink. Further, in a case where thewearable terminal 100 has a function of a digital camera or the like, itis possible to simply capture a digital image as well as a radiographicimage. In the medical field, the captured image may be very usefullyused for confirmation of a medical practice or the like in the future.

Further, since the image captured by the wearable terminal 100 which isthe spectacle-type computer is an image captured by the user's eye, itis possible to efficiently use the image for an educational purpose withrespect to a doctor or the like having little experience.

In addition, in this embodiment, since the wearable terminal 100 may beoperated using a gesture (for example, a wink), it is possible torapidly perform the operation.

In this embodiment, the display of the video image is performed by thecontrol apparatus, but the display of the video image may be performedby both of the control apparatus and the wearable terminal 100, insteadof the control apparatus.

Further, in this embodiment, in the case of the video mode, the entirecontrol of the radiographic image capturing apparatus 14 is performedfrom the wearable terminal 100, but the wearable terminal 100 mayperform only a predetermined control, and the control apparatusconnected to the radiographic image capturing apparatus 14 may performother controls.

In this embodiment, in the case of the video mode, the capturing of onlythe video image is performed, but capturing of a static image may beperformed. For example, the wearable terminal 100 may instruct theradiographic image capturing apparatus 14 to capture a static image, orthe capturing of the static image may be performed before or aftercapturing of the video image, or at a predetermined timing.

Further, in this embodiment, the video mode is selected as the imagingmode based on the total evaluation value and the threshold value forvideo mode selection, but a method for selecting the video mode as theimaging mode is not limited to this embodiment.

A configuration in which the radiographic image capturing apparatus 14is controlled by the wearable terminal 100 is not limited to thisembodiment. For example, the wearable terminal 100 may be used as thesame control apparatus as the portable information terminal 16 or theconsole 18.

Further, the type of the control performed by the wearable terminal 100with respect to the radiographic image capturing apparatus 14 is notlimited to this embodiment. For example, the wearable terminal 100 mayinstruct which mode the imaging mode is set to. As a specific example,after positioning of the photographic subject W is terminated, thewearable terminal 100 may instruct the radiographic image capturingapparatus 14 to transition to the power saving mode.

In addition, an antibacterial technique may be applied to an outersurface of the wearable terminal 100. Furthermore, an antibacterialtechnique that includes a hydrophilic processing unit disclosed inJP2015-27416A may be used. Thus, even in a case where the outer surfaceof the wearable terminal 100 is contaminated by a body fluid or thelike, it is possible to easily remove the contamination.

As described above, the radiographic image capturing apparatus 14 of therespective embodiments includes the I/F unit 28 and the imaging controlunit 22 that function as a communication unit that selectively performscommunication with any one of the portable information terminal 16 andthe console 18 which are plural control apparatuses that have differentimage processing capacities with respect to a radiographic image andrespectively perform a control relating to capturing of the radiographicimage, and the imaging control unit 22 that functions as a selectionunit that selects any one of plural imaging modes (the memory mode andthe normal mode) predetermined with respect to the capturing of theradiographic image based on the image processing capacity of a controlapparatus that performs communication with the communication unit in acase of capturing the radiographic image.

Further, the imaging control unit 22 exclusively selects the pluralimaging modes for each control apparatus according to the imageprocessing capacities of the plural control apparatuses.

Thus, according to the radiographic image capturing apparatus 14 of thisembodiment, it is possible to select the imaging mode suitable for theconnected control apparatus in the radiographic image capturingapparatus 14.

Further, according to the radiographic image capturing apparatus 14 ofthis embodiment, in a case where the portable information terminal 16 isconnected, the memory mode is selected as the imaging mode. Thus,according to the radiographic image capturing apparatus 14, even in acase where the communication with the console 18 or an external systemcannot be performed due to communication troubles, it is possible toappropriately and reliably capture a radiographic image, and to preventa user's operation from being complicated. Further, in the case of theconsole 18, in order to start the imaging, about several minutes arenecessary for start-up such as reception of order information. However,since the portable information terminal 16 needs only about 1 minute forthe start-up, the start-up becomes fast, and even in a case where theimaging is urgently performed, it is possible to quickly, appropriately,and reliably execute capturing of a radiographic image.

Accordingly, according to the radiographic image capturing apparatus 14of the respective embodiments, it is possible to enhance usability ofthe radiographic image capturing apparatus 14 for a user.

Further, in the radiographic image capturing apparatus 14 of the firstto third embodiments, in a case where the portable information terminal16 is connected, the memory mode is selected as the imaging mode, andthe image data of the radiographic image obtained by the imaging isstored in the memory 24 of the radiographic image capturing apparatus14. Thus, it is possible to perform imaging regardless of the capacityof the storage unit 32 of the portable information terminal 16. Further,since the radiographic image capturing apparatus 14 can be handled bythe user, similar to a radiographic image capturing apparatus thatperforms capturing of a radiographic image using a film or a computedradiography (CR) cassette, it is possible to enhance usability of theradiographic image capturing apparatus 14 for the user.

The radiographic image capturing system 10 may include only one controlapparatus capable of being connected to the radiographic image capturingapparatus 14. As such a case, FIG. 26 shows a schematic configuration ofan example of the radiographic image capturing system 10 that includesthe radiographic image capturing apparatus 14 and the console 18. Theradiographic image capturing system 10 shown in FIG. 26 does not includethe portable information terminal 16, differently from the radiographicimage capturing system 10 of the first embodiment (see FIGS. 1 and 2).

Even in the case of one control apparatus, in a case where the controlapparatus has image processing functions having different imageprocessing capacities with respect to a radiographic image, in which anyone of the functions is selectable, each image processing function canbe equivalently considered as one control apparatus, and theradiographic image capturing apparatus 14 can be used for imagingsimilar to the above-described respective embodiments.

As a specific example, it is assumed that the console 18 is a controlapparatus that includes a first image processing function of performingoffset correction, gain correction, and defective pixel correction, anda second image processing function of performing offset correction andgain correction. In this case, in a case of performing the first imageprocessing function, the control unit 50 may be considered as the samecontrol apparatus as the console 18 described in the above-describedrespective embodiments. Further, in a case of performing the secondimage processing function, the control unit 50 may be considered as thesame control apparatus as the portable information terminal 16 describedin the above-described respective embodiments.

The imaging control unit 22 of the radiographic image capturingapparatus 14 shown in FIG. 26 selects an imaging mode according to whichone of the first image processing function and the second imageprocessing function the image processing function executed by thecontrol unit 50 of the console 18 corresponds to. In the imaging controlunit 22, a method for determining which one of the first imageprocessing function and the second image processing function the imageprocessing function executed by the control unit 50 of the console 18corresponds to is not particularly limited. For example, in theradiographic image capturing apparatus 14, a correspondence relationshipbetween each of the first image processing function and the second imageprocessing function, and an imaging mode is stored in advance in thememory 24 or the like. Further, the imaging control unit 22 of theradiographic image capturing apparatus 14 may acquire informationindicating which function the image processing function executed by thecontrol unit 50 corresponds to from the console 18, and may select animaging mode based on the acquired information and the storedcorrespondence relationship.

Further, even in the case of one control apparatus, in a case where theone control apparatus has plural image processing functions by using animage processing function of a system, an apparatus or the like providedin an external system or the like, similarly, each image processingfunction can be equivalently considered as one control apparatus, andthe radiographic image capturing apparatus 14 can be used for imagingsimilar to the above-described respective embodiments. As a specificexample, it is assumed that the portable information terminal 16 canperform image processing of a radiographic image obtained by imagingusing the image processing function of the host apparatus and the imageprocessing function of the console 18. In this case, in a case ofperforming image processing using the image processing function of theconsole 18, the imaging control unit 22 may be considered as the samecontrol apparatus as the console 18. Further, in a case of performingimage processing using the image processing function of the hostapparatus, the imaging control unit 22 may be considered as the samecontrol apparatus as the portable information terminal 16 described inthe respective embodiments. In the imaging control unit 22, a method fordetermining which one of the image processing function of the portableinformation terminal 16 or the image processing function of the console18 the image processing function used by the portable informationterminal 16 corresponds to is not particularly limited. For example, theimaging control unit 22 may acquire information indicating which of theimage processing function used by the portable information terminal 16corresponds to, and may select an imaging mode based on the acquiredinformation.

In the above-described respective embodiments, a case where the portableinformation terminal 16 and the console 18 having different imageprocessing functions as image processing capacities are used as thecontrol apparatuses is described, but the image processing capacitiesare not limited to the image processing functions. For example, theimage processing capacities may be display capacities of display unitsprovided in the control apparatuses. In the case of the radiographicimage capturing system 10 of the respective embodiments, displaycapacities of the display 36 of the portable information terminal 16 andthe display 56 of the console 18 are different from each other. Here,the “display capacity” refers to a capacity depending on at least one ofthe size of a display region where a radiographic image is displayed,resolution, gradation, or the like.

As a specific example, in the radiographic image capturing apparatus 14,in a case where a display region of the connected control apparatus isequal to or smaller than a predetermined size, since it may be difficultto display a radiographic image for image reading in the controlapparatus, the memory mode described in the first to third embodimentsis set as the imaging mode. On the other hand, in the radiographic imagecapturing apparatus 14, in a case where the display region of theconnected control apparatus exceeds a predetermined size, since it ispossible to display the radiographic image for image reading in thecontrol apparatus, the normal mode described in the first to thirdembodiments is set as the imaging mode.

In this case, in the radiographic image capturing apparatus 14, acorrespondence relationship between information (control apparatus ID orthe like) indicating each control apparatus and the size of the displayregion is stored in advance in the memory 24 or the like. Further, acontrol apparatus ID may be acquired from the connected controlapparatus, and the size of the display region may be determined based onthe acquired control apparatus ID and the stored correspondencerelationship, and the imaging mode may be selected depending on thedetermined size of the display region.

In this case, as an example of the predetermined size of the displayregion, the size of a tablet terminal may be used. As a specificexample, a 10-inch tablet (corresponding to a diagonal length of 25 cm)may be used as the size of a screen, for example.

Further, as a specific example, in a case where the resolution of theradiographic image capturing apparatus 14 is equal to or less than apredetermined resolution, since it may be difficult to see theradiographic image for image reading displayed in the control apparatus,the memory mode described in the first to third embodiments is set tothe imaging mode. On the other hand, in the radiographic image capturingapparatus 14, in a case where the resolution of the connected controlapparatus exceeds a predetermined resolution, since it is easy to seethe radiographic image for image reading displayed in the controlapparatus, the normal mode described in the first to third embodimentsis set as the imaging mode.

In the above-described respective embodiments, the imaging mode isselected whenever the radiographic image capturing apparatus isconnected to the control apparatus, but the timing when the imaging modeis selected is not particularly limited. For example, the imaging modemay be selected for every order information or every photographicsubject W. The imaging mode may be selected according to predeterminedconditions, for example, conditions set according to a user's desire. Ina case where capturing of plural radiographic images is instructed byone piece of order information, it is preferable that the capturingcorresponding to one piece of order information is performed in the sameimaging mode.

Further, in a case of performing additional imaging, a doctor or thelike who requests additional imaging with respect to a user for whomcapturing of a photographic image is necessary may urgently desire toread the radiographic image. In such a case, it is preferable that theimaging mode is set to the normal mode and image data of theradiographic image is stored in the control apparatus. Further, in acase where the reading of the radiographic image is not urgent, it maybe preferable that the imaging mode is set to the memory mode. Thus, theimaging mode may be selected according to the additional imaging.

In the above-described respective embodiments, the radiographic imagecapturing apparatus 14 automatically selects the memory mode in a casewhere the portable information terminal 16 is connected, and the normalmode in a case where the console 18 is connected, but the selection ofthe imaging mode may be performed based on an imaging mode instructed bythe user. For example, in a case where the portable information terminal16 is connected to the radiographic image capturing apparatus 14, if itis detected that the operation unit 40 of the portable informationterminal 16 is operated by a user, the portable information terminal 16transmits selection information for selecting the memory mode to theradiographic image capturing apparatus 14. Further, the imaging controlunit 22 functions as an example of a reception unit of the invention,and selects the memory mode as the imaging mode based on the receivedselection information.

In this case, the user may perform the instruction of the imaging modefrom any apparatus. For example, as described above, the instruction ofthe imaging mode may be performed from any one of the portableinformation terminal 16 (operation unit 40), the console 18 (operationunit 60), and the radiographic image capturing apparatus 14 (operatingbutton 25). Further, the instruction of the imaging mode may beperformed from an external system which is directly or indirectlyconnected to the radiographic image capturing apparatus 14.

Further, the timing when the user performs the instruction of theimaging mode is not particularly limited, and for example, may be atiming when the imaging list described in the respective embodiments isdisplayed, or may be a timing before imaging corresponding to one pieceof order information is started. Further, the instruction of the imagingmode may be performed every order information.

The radiographic image capturing apparatus 14 of the above-describedrespective embodiments may set the instructed imaging mode in the memory24 or the like using a flag or the like.

Further, similar to the instruction of the imaging mode, theradiographic image capturing apparatus 14 may release an imaging modewhich is being executed by an instruction of the user. In this case, theradiographic image capturing apparatus 14 may transition to apredetermined imaging mode.

In addition, in a case where the radiographic image capturing apparatus14 and the control apparatus perform communication in a wired manner,the imaging mode may be selected according to predetermined conditionsregardless of the above-described respective embodiments. For example,in a case where the communication is performed in a wired manner, sincethe communication capacity is greater than that in a case where thecommunication is performed in a wireless manner, the normal mode may beselected as the imaging mode. However, since the imaging is performed inan imaging environment where the communication cannot be performed in awireless manner, in a case where the communication is performed in awired manner, for example, even in a case where the portable informationterminal 16 is used as the control apparatus, it is preferable that thememory mode is selected as the imaging mode.

Further, in the radiographic image capturing apparatus 14 of theabove-described respective embodiments, in a case where the memory modeprocess is performed, it is preferable that in a case where theconnection (communication) with the portable information terminal 16 iscut off, the memory mode is maintained as the imaging mode, and in acase where the connection (communication) is restored, the memory modeprocess is performed again.

In the above-described respective embodiments, a case where theradiographic image capturing apparatus 14 includes two kinds of imagingmodes is described, but three or more kinds of imaging modes may beprovided. For example, in a case where capturing of a radiographic imageis performed using the portable information terminal 16, there is a casewhere although an empty capacity of the memory 24 of the radiographicimage capturing apparatus 14 is insufficient, the capturing of theradiographic image is to be performed using the portable informationterminal 16. In this case, it is not appropriate for the imaging controlunit 22 of the radiographic image capturing apparatus 14 to select thememory mode as the imaging mode. With respect to the imaging mode, it ispreferable that a third mode of generating image data of a preview imageand transmitting the image data to the portable information terminal 16and transmitting raw data of a radiographic image or image data of aradiographic image for image reading to the portable informationterminal 16 is provided as the imaging mode, and in the above case, theimaging control unit 22 selects the third mode as the imaging mode.

In the radiographic image capturing system 10 of the above-describedrespective embodiments, a case where the portable information terminal16 and the console 18 are provided as plural control apparatuses isdescribed, but the control apparatuses provided in the radiographicimage capturing system 10 are not limited thereto. For example, pluralportable information terminals 16 may be provided in one radiographicimage capturing system 10.

In this case, the plural portable information terminals 16 may include aportable information terminal to which the memory mode is applied asdescribed above, and a portable information terminal to which the normalmode is applied in a similar to the console 18. As a specific example,in a case where the portable information terminal 16 in which OsiriXwhich is image processing software is applied to an image processingfunction is used in combination with the console 18, the memory mode isapplied similar to the portable information terminal 16 of the first tothird embodiments. On the other hand, in a case where the portableinformation terminal 16 in which OsiriX is applied to the imageprocessing function and a portable information terminal 16 having animage processing function with an image processing capacity lower thanthat of OsiriX are combined for use, the normal mode is applied similarto the console 18 of the first to third embodiments. Information fordetermining which imaging mode is selected according to the portableinformation terminal 16 may be registered in the radiographic imagecapturing apparatus 14.

In the above-described respective embodiments, a case where image dataof a radiographic image or an image ID is stored in association with atleast one of photographic subject information or order information isdescribed, but it is preferable that other information may be stored inassociation.

For example, irradiation result information indicating a result obtainedby irradiating the radiographic image capturing apparatus 14 withradiation R from the irradiator 12 may be associated. As a specificexample of the information indicating the result, a tube current, a tubevoltage, an irradiation time, an irradiation region (opening region of acollimator), and the like may be used. In capturing a radiographicimage, imaging may be performed without using a grid for removingscattered rays generated in a case where the radiation R passes througha photographic subject W, and then, a virtual grid process of removingthe influence of the scattered rays based on a characteristic of a gridto be used, similar to a case where a grid is provided using imageprocessing with respect to image data of the captured radiographicimage, may be performed. Since the amount of scattered rays correspondsto the dose of the emitted radiation R, by associating the informationindicating the result, it is possible to enhance the accuracy of thevirtual grid process with respect to the image data of the associatedradiographic image.

Further, for example, information indicating whether or not imaging isperformed using a grid may be associated. In this case, it is possibleto determine whether or not the virtual grid process is performed withrespect to the image data of the associated radiographic image.

In addition, for example, information (user ID or the like) indicating auser who performs imaging may be associated.

For example, information indicating an upper side and a lower side (topand bottom) of a radiographic image may be associated. In this case, ina case where the user reads the associated radiographic image, it ispossible to automatically adjust the upper side and the lower side (topand bottom) of the radiographic image by an apparatus used for reading.

Further, for example, information (imaging apparatus ID or the like)indicating the radiographic image capturing apparatus 14 may beassociated.

For example, information indicating an apparatus of a transmissionsource of order information or a system (for example, console ID or thelike in the case of the console 18) may be associated. In this case, itis possible to easily transmit the associated radiographic image to thetransmission source of order information.

Further, for example, in a case where imaging is performed in a statewhere an order is not issued, for example, in additional imaging,information indicating that the order is not issued may be associated.In this case, it is possible to easily associate image data of aradiographic image with order information using the console 18 or thelike.

Further, in the first to third embodiments, a case where when imagingstarting is instructed from the control apparatus, the radiographicimage capturing apparatus 14 causes the radiation detector 20 to enter aready state to detect irradiation starting with radiation R isdescribed, but a timing when the radiation detector 20 enters the readystate is not limited thereto. For example, a temperature sensor may beprovided in the radiographic image capturing apparatus 14, and theimaging control unit 22 may determine that a photographic subject W ispositioned and is in contact with the radiographic image capturingapparatus 14 based on a change in temperature detected by thetemperature sensor. Further, in a case where it is determined that thephotographic subject W is positioned and is in contact with theradiographic image capturing apparatus 14, the radiation detector 20 mayenter the ready state. Further, for example, a sensor for detecting astate of the radiographic image capturing apparatus 14 in a case whereimaging is started may be provided, and in a case where it is determinedby the imaging control unit 22 that the imaging is started based on adetection result of the sensor, the radiation detector 20 may enter theready state.

In the first to third embodiments, in the case of the normal mode, acase where image data of a radiographic image is temporarily stored inthe memory 24 until imaging corresponding to one piece of orderinformation is completed, and if the imaging corresponding to one orderis completed, the image data is collectively deleted is described, but atiming when the image data is deleted is not limited thereto. Forexample, whenever imaging completion instruction information is receivedfrom the console 18, the image data may be deleted one by one.

Further, in the above-described respective embodiments, a case wherewhen the console 18 receives image data of a radiographic image, theimage data is stored in the storage unit 52 in the console 18 isdescribed, but a position where the information is stored is not limitedto the storage unit 52. For example, the information may be stored in anexternal storage device (PACS: picture archiving and communicationsystem), or the like.

Further, the photographic subject W may not be a human, and may be acreature other than a human, such as an animal or a plant, or may beother objects.

In addition, radiation R used for capturing of a radiographic image isnot particularly limited, and X-rays, γ-rays, or the like may beapplied.

Furthermore, the configurations and operations of the radiographic imagecapturing apparatus 14, the portable information terminal 16, theconsole 18, and the like described in the embodiments are examples, andmay be variously modified according to situations in a range withoutdeparting from the spirit of the invention.

What is claimed is:
 1. A radiographic image capturing apparatuscomprising: a communication unit that selectively performs communicationwith any one of a plurality of control apparatuses that has differentimage processing capacities with respect to a radiographic image andrespectively performs a control relating to capturing of theradiographic image; an operation unit; and a selection unit that selectsany one of a plurality of imaging modes including a memory mode which isan imaging mode in which image data of a plurality of radiographicimages obtained by imaging is stored in a storage unit of theradiographic image capturing apparatus and a normal mode which is animaging mode in which image data of a plurality of radiographic imagesobtained by imaging is sequentially transmitted, and the selection unitselects the memory mode in a case where the operation unit that isoperated by a user is operated.
 2. The radiographic image capturingapparatus according to claim 1, wherein the selection unit automaticallyselects any one of the plurality of imaging modes in a case where theoperation unit is not operated.
 3. The radiographic image capturingapparatus according to claim 2, wherein the selection unit automaticallyselects the memory mode in a case where the communication unit performscommunication with the control apparatus having an image processingcapacity, among the plurality of control apparatuses, lower than thoseof the other control apparatuses.
 4. The radiographic image capturingapparatus according to claim 2, wherein the selection unit automaticallyselects the normal mode in a case where the communication unit performscommunication with the control apparatus having an image processingcapacity, among the plurality of control apparatuses, higher than thoseof the other control apparatuses.
 5. The radiographic image capturingapparatus according to claim 2, wherein each of the plurality of controlapparatuses includes a display unit having a display capacity accordingto the image processing capacity, and the selection unit automaticallyselects any one of the plurality of imaging modes according to thedisplay capacity of the display unit.
 6. The radiographic imagecapturing apparatus according to claim 5, wherein the display capacityincludes the size of a display region of the display unit, and theselection unit automatically selects the memory mode in a case where thecommunication unit performs communication with the control apparatushaving the display unit in which the size of the display region issmaller than a predetermined size.
 7. The radiographic image capturingapparatus according to claim 2, wherein the selection unit automaticallyselects any one of the plurality of imaging modes, according to acommunication capacity through which the communication unit performscommunication with the control apparatus.
 8. The radiographic imagecapturing apparatus according to claim 1, wherein the selection unitselect the normal mode in a case where an available capacity of thestorage unit is insufficient even in a case where the operation unitthat is operated by the user is operated.
 9. The radiographic imagecapturing apparatus according to claim 1, wherein the image data of theplurality of radiographic images is image data of radiographic imagesobtained based on a plurality of order information, and image data ofthe plurality of radiographic images obtained based on one piece oforder information is associated with each other and stored in thestorage unit.
 10. The radiographic image capturing apparatus accordingto claim 1, wherein the storage unit is integrated with the radiographicimage capturing apparatus in a case of performing the capturing theradiographic image.
 11. The radiographic image capturing apparatusaccording to claim 1, wherein the storage unit is detachably andattachably mounted to the radiographic image capturing apparatus. 12.The radiographic image capturing apparatus according to claim 1, furthercomprising: a control unit that controls an imaging operation of aradiographic image and a working memory that is used for a control ofthe imaging operation by the control unit.
 13. The radiographic imagecapturing apparatus according to claim 1, further comprising: theoperation unit.
 14. The radiographic image capturing apparatus accordingto claim 13, wherein the operation unit is a operating button that isprovided on a housing of the radiographic image capturing apparatus. 15.The radiographic image capturing apparatus according to claim 1: whereinat least one control device among the plurality of control apparatuseshas the operation unit.
 16. The radiographic image capturing apparatusaccording to claim 1: wherein the plurality of control apparatusesinclude a portable information terminal having the operation unit. 17.The radiographic image capturing apparatus according to claim 1: whereinthe plurality of control apparatuses include a console and a portableinformation terminal having an image processing capacity lower than theconsole.
 18. A radiographic image capturing system comprising: theradiographic image capturing apparatus according to claim 1; and theplurality of control apparatuses that has different image processingcapacities with respect to a radiographic image obtained by imaging inthe radiographic image capturing apparatus and respectively performs acontrol relating to capturing of the radiographic image.
 19. A controlmethod of a radiographic image capturing apparatus comprising:selectively performing communication with any one of a plurality ofcontrol apparatuses that has different image processing capacities withrespect to a radiographic image and respectively performs a controlrelating to capturing of the radiographic image; selecting any one of aplurality of imaging modes including a memory mode which is an imagingmode in which image data of a plurality of radiographic images obtainedby imaging is stored in a storage unit of the radiographic imagecapturing apparatus and a normal mode which is an imaging mode in whichimage data of a plurality of radiographic images obtained by imaging issequentially transmitted; and selecting the memory mode in a case wherean operation unit that is operated by a user is operated.
 20. Anon-transitory computer readable recording medium recorded with acontrol program of a radiographic image capturing apparatus, causing acomputer to execute a process comprising: selectively performingcommunication with any one of a plurality of control apparatuses thathas different image processing capacities with respect to a radiographicimage and respectively performs a control relating to capturing of theradiographic image; selecting any one of a plurality of imaging modesincluding a memory mode which is an imaging mode in which image data ofa plurality of radiographic images obtained by imaging is stored in astorage unit of the radiographic image capturing apparatus and a normalmode which is an imaging mode in which image data of a plurality ofradiographic images obtained by imaging is sequentially transmitted; andselecting the memory mode in a case where an operation unit that isoperated by a user is operated.